CA2235035A1

CA2235035A1 - Absorbent article having an improved fastenability

Info

Publication number: CA2235035A1
Application number: CA002235035A
Authority: CA
Inventors: Lisha Yu; Ruth Ann Lachapell; Kristina Michelle Boudry; Chinmay Suresh Betrabet
Original assignee: Individual
Current assignee: Kimberly Clark Worldwide Inc
Priority date: 1995-11-15
Filing date: 1996-11-06
Publication date: 1997-05-22
Also published as: AU7721296A; WO1997017926A1; MX9803713A; AR004588A1; ZA969369B; CO4770934A1; US6277106B1

Abstract

The present invention provides a diaper (20) which includes an outer cover (32), a bodyside liner (34) which is superposed on the outer cover (32) and which includes a bodyfacing surface, an absorbent core which is located between the outer cover (32) and the bodyside liner (34), and an adhesive (50). The adhesive (50) is located on the bodyfacing surface of the bodyside liner (34). The adhesive (50) is configured to at least temporarily secure the front portion of the diaper (20) to a wearer's body to assist in positioning and fastening the diaper (20) about the wearer's body. In a particular aspect, the adhesive is configured to provide a peel strength of no more than about 300 grams per centimeter of width and an initial shear strength of no more than about 600 grams per square centimeter.

Description

CA 0223~03~ 1998-0~-07 ABSORBENT ARTICLE HAVING AN IMPROVED FASTENABILITY

Background of the InvenUon 5 The present invention relates to a ~lispos~hle absorbent article having an improved fastenability about the waist of a wearer. In particular, the present invention relates to a ~ )osal~le diaper which includes an adhesive to assist the care-giver in positioning and fastening the diaper about the waist of the wearer.

Di.il.os~ e absorbent articles such as diapers, incontinence arGcles, training pants and the like are well known 10 to those skilled in the art. Such abso~ bel ~I articles generally include a front portion, a rear porUon and a crotch portion connecting the front portion to the rear portion. As used herein"af~,r~nce to a front portion refers to that part of the absorbent arbcle which is generally located on the front of a wearer when in use. Reference to the rear porUon refers to the portion of the absorbent article generally located at the rear of the wearer when in use, and l~ ~ ence to the crotch portion refers to that portion which is generally located between the legs of the 15 wearer when in use.

Many of the conventional absorb~nt articles, and diapers in parUcular, are typically fastened about the waist of the wearer using fasteners which can be releasably engaged together. The fasteners generally include a pair of first fa~t~nel~ which are located on Ihe side edges of the rear porUon of the absorl,e nt article and at least 2 0 one second fastener which is located on the front portion of the absorl,er,t article. In use, the first f~leners are configured to be releasably engageable with the second fastener to fasten the ~t,so,l,e"l article about the waist of the wearer.

The process used to fasten such convenUonal absorbeht arUcles about a wearer typically includes the 2 5 following steps: (1) placing the aLsorlJent article in a laid out flat configuration; (2) posiUoning the back torso of the wearer on the rear portion of the absorbent article; (3) bringing the front portion of the ~6so~bel,t arUcle between the legs of the wearer; (4) extending the fast~l1el~ about the side regions of the waist of the wearer;
and (5) releasably engaging the f~stener~ together to secure the al,~, ~nt arUcle about the waist of the CA 0223~03~ 1998-0~-07 wearer. Such an involved process can be exb ~" Icly difficult for a care-glver to accor, I~ or example, aner bringing the front portion of the absorbent article between the legs of the wearer, the care-giver typically uses one hand to hold the front portion of the al,sorl,ent article against the stomach of the wearer, while the other hand releasably engages the f~tenels about one side of the wearer. The care-giver must then switch hands 5 and complete the same procedure on the opposite side of the wearer. In such a process, it can be very difficult for the care-giver to maintain the al,sorl,ent article in a proper position while releasably engaging the fa~t~r,e, s together along both side edges of the waist of the wearer. This is particularly true when the wearer is very active.

1 0 As a result, the conventional al,so, ~1 1l articles and the process of fastening such articles about the waist of a wearer have not been co~ JletelJ satisfactory. The design of the conventional d~lb~lll articles and the complex process required in using them can easily frustrate the care-giver or person fastening the article about the wearer. Moreover, the conventional article design and fastening process can result in an improper positioning of the absorl,erll article about the wearer. Such improper positioning can result in an u"desil able 15 inuease in leakage of body exudates from the ~bsorbel,l article and decreased consumer acceptd"ce.
Typically, when using the conventional ~Lsorl,ent articles, the care-giver may be required to readjust or reposition the al,sorbent article two or more times to achieve the optimum placel"~nt and fit of the article about the wearer.

2 0 Many conventional ab~rLerll articles have included fa~t~"elswhich are attached to tabs of material or ears which extend beyond the side edges of the ~LsGrl,ent arlicle to improve the fastenability of the abs~rb~nt article about the waist of the wearer. However, although such improvements have increased the ease of fastening, it remains desirable to provide an ~bsorb~l ,l article which has an improved fastenability about the waist of the wearer. In particular, it is desirable to provide an cbsorl,erlt article having improved fastening 2 5 e, yono" ,ics which can result in an improved fit and posiUoning of the dl,sorl,enl article about the wearer upon an initial fastening to provide improved pe, f~,r,l Idl ,ce.

Moreover, conventional abso,L,ent articles which have utilized leg and waist gathers have still had a tendency to leak body ex~ Idat~s at the leg and waist regions. Further, the waist regions on conventional al ~, bdnl 3 0 articles have also u"desir~l~ly rolled over or sagged and drooped after a period of usage. Accordingly, it is also desirable to provide an dbSel l~r,t article which has reduced leakage and which has waist regions which have a reduced tendency to roll over or droop.

CA 0223~03~ 1998-0~-07 Summary of the InvenUon In response to the ~isc~u.sssd diffiwlties and pr-'~ ' . "s, a new disposable absorbe nt article having an improved fastenability about a wearer has been discovered.
In one aspect, the present invenUon concems an absorbenl article which includes a front portion, a rear ~ portion, a crotch portion which extends between and connects the front porUon to the rear portion, a pair of side edges and a pair of longitudinal end edges. The abso",erlt aracle also includes an outer cover, a bodyside liner which is sul,~",osed on the outer cover and which includes a bodyfacing surface and an 1 0 al,su, ~nt core which is located between the outer cover and the bodyside liner. The absorl,~, ll article further includes an adhesive which is located on the bodyfacing surface of the bodyside liner. The adhesive is configured to provide a peel strength of no more than about 300 grams per centimeter of width of the adhesive pattem.

15 In another aspect, the present invention col ,cer"s an abso~ ber,l article which includes an adhesive which is located on the bodyfacing surface of the bodyside liner and which is configured to at least lu~ ul~,ily secure the ~su,l,erlt article to a wearer's body. The adhesive is configured to provide a peel strength of no more than about 300 grams per centimeter of width, an aged shear strength of no more than about 500 grams per square centimeter and a cyclic shear value of no more than about 100 cycles. In a particular aspect, the 2 0 adhesive is located on the bod~ fdci"g surface of the bodyside liner in the front porlion of the ~6solbenl article.
In such a configuration, the adhesive is configured to at least te",pola,i'y secure the front portion of the allsul ber,t arlicle to the wearer's body to assist in positioning and fastening the absorbent aracle about the wearer's body.

2 5 In yet another aspect, the present invention cuncerl,s a diaper which includes a front portion, a rear portion, a crotch portion which extends between and connects the front portion to the rear portion, a pair of side edges and a pair of longitudinal end edges. The diaper also includes an outer cover, a bodyside liner which is superposed on the outer cover and which includes a bodyfacing surface, an dL,sorbent core which is located between the outer cover and the bodyside liner, and an adhesive. The adhesive is located on the bodyfacing 3 0 surface of the bodyside liner adjacent at least a porUon of the longitudinal end edge of the diaper in the front portion of the diaper. The adhesive is configured to al least t~r"~,urd,i!y secure the front portion of the diaper to a wearer's body to assist in positioning and fastening the diaper about the wearer's body. In a particular aspect, the adhesive is configured to provide a peel strength of no more than about 300 grams per cenUmeter of width and an iniUal shear strength of no more than about 600 grams per square cenUmeter.

CA 0223~03~ 1998-0~-07 The present invention can advantageously provide an abso, bdr,l article which has improved fastenability. The ~bsol~l~l article according to the different aspects of the present invention has improved fastening ely. nor,ucs to allow the care-giver to properly posiUon and fasten the al,sorbe"t article about the waist of a 5 wearer on the first try. As such, the present invenUon can provide an ~b~Le~l article which has reduced leakage because it is easier to posiUon on the wearer to obtain the optimum fit.
Moreover, the present invention can advantageously provide an d~so,bdllt arUcle which has illl,ul~ ~.d seals at the leg and waist regions to reduce the leakage of bodily exudates. The present invenUon can also provide an 10 abso,berlt article which has waist regions which have a reduced tendency to rollover or droop and sag.
Accordingly the present invenUon can provide an at,so~Lenl article which is easier to fasten about the wearer and has an improved fit, reduced leakage and i"u,~ased consumer acoepta"ce.

Brief Description of the Drawings The present invenUon will be more fully u, ,der~tuod and further adVdl ,tages will become apparent when r .~re,~e is made to the following detailed description of the invenUon and the a~ol"~,a"ying drawings wherein like numerals r~present like elements. The drawings are merely lepresenlative and are not intended to limit the scope of the claims.
Fig. 1 rt",~sentatively illustrates a top plan view of an example of a disposable diaper according to the present invenUon;

Fig. 2 is a cross-sectional view of the ui pos~- e diaper ,~pl~sentaUvely illustrated in Fig. 1 taken along line 2--25 2;

Fig. 3 ,~,r~se,lldtively illustrates a top plan view of another example of a disposable diaper according to the present invention;

3 0 Fig. 4 Ib~es~"tatively illustrates a top plan view of a further example of a d; ~osA~'a diaper according to the present invention;

Fig. 5 is a cross-sectional view of the d; "os;~ diaper ~ )resentatively illustrated in Fig. 4 taken along line ~-5; and CA 0223~03~ l998-0~-07 wo 97/l 7926 PCTtUSg6tl 7683 Fig. 6 rep~u~entatively illustrates a top plan view of yet another example of a d; ~ s: ' 'o diaper according to the present invention.

Detailed Des~ ir tic n of the Invention The present invention relates to a d;~o~ le at,su,l,enl article having an improved fastenability about the waist of a wearer. The term ~d: ~,~cAI~le absorbel,t article' is intended to refer to any ~ osAl~la article intended to be worn and attached to a wearer to absorb di~hal yed body fluids. Examples of d; ~pos~l ~le 1 0 at,~, I,enl articles include diapers, adult incontinence products, training pants, feminine care products, and the like. For ease of u~de~tAnding, much of the following description of the present invenUon will be made in terms of ~; ~os~ le diapers. Nonetheless, it is to be u"der~tuod that the present invention is equally suited for use as any other d;i~ osAh'~ ~I.sorbent article.

1 5 Figs. 1 -6, ~preser,latively illustrate different diaper configurations according to the present invention wherein like numerals ~p, user,t like Gla~ t~. As ~prusentatively illustrated in Figs. 1-6, the diaper 20 defines a front portion 22, a rear portion 24, a crotch portion 26 connecting the front portion 22 and the rear portion 24, a pair of opposite side edges 28 and a pair of opposite longitudinal end edges 30. The diaper 20 includes an outer cover 32, a bodyside liner 34 and an dbsor~nt core 38 located between the bodyside liner 34 and the outer 2 0 cover 32. The bodyside liner 34 includes a bodyfacing surface 36 which is intended to provide a contacUng relaUonship with a wearer's body in use. The diaper 20 also includes an adhesive 50 located on the bodyfacing surface 36 of the bodyside liner 34.

The opposite side edges 28 of the diaper 20 may include a pair of elasUcized, longitudinally-extending leg 2 5 cuffs 42. The leg cuffs 42 are generally adapted to fit about the legs of the wearer in use and serve as a " ~cl ,a, l~dl barrier to the lateral flow of body exudates. The diaper 20 may also indude a front and rear waist elasUc 44 to help reduce leakage at the front and back waist of the wearer when in use. The leg cuffs 42 and waist elastics 44 may be elasticized by elasUc l,wllllJul~ as are well known to those skilled in the art. The diaper 20 may further include a pair of f~t~ners 46 which are intended to hold the diaper 20 about the waist of 3 0 the wearer when in use. Suitable fa~t~,1ers 46 include adhesive tape fdxt~ners, hook-and-loop type fd~t~Jner~, buttons, snaps and the like as are also well known to those skilled in the art. The diaper 20 may also include a - pair of elasticized, longitudinally-extending containment flaps 48 which are configured to maintain an upright, perpendicular dl 1~1 Iy~;l I ,ent in at least the crotch portion 26 of the diaper 20 to serve as an additional barrier to the lateral flow of body exudates.

CA 0223~03~ 1998-0~-07 The outer cover 32 of the diaper 20, as ,~,resentaUvely illustrated in Figs. 1-6, may suitably be c~",~,osed of a materialwhichiseitherliquidpellll ~ orliquidimpermeable. Itisgenerallypr~.,edthattheoutercover32 be formed from a material which is substanUally impermeable to liquids. For example, a typical outer cover 5 can be manufactured from a thin plasUc film or other flexible liquid-i" ,~7, 1 "e~ble material. For example, the outer cover 32 may be formed from a polyethylene film having a U"chl,ess of from about 0.013 millimeter (0.5 mil) to about 0.051 millimeter (2.0 mils). If it is desired to present the outer cover 32 with a more clothlike feeling, the outer cover 32 may comprise a polyethylene film having a nonwoven web laminated to the outer surface thereof, such as a spunbond web of polyolefin fibers. For example, a polyuL.ylene film having a U ,i~"ess of about 0.015 millimeter (0.6 mil) may have thermally laminated thereto a spunbond web of polyolefin fibers, which fibers have a U Ih;hlldss of about 1.5 to 2.5 denier per filament, which non..~von web has a basis weight of about 24 grams per square meter (0.7 ounce per square yard). Methods of forming such clothlike outer covers are known to those skilled in the art.

15 Further, the outer cover 32 may be formed of a woven or nG"w~ .~,n fibrous web layer which has been totally or partially constructed or treated to impart a desired level of liquid i",~,e",~ability to selected regions that are adjacent or proximate the aL,s~,~"t core 38. SUII further, the outer cover 32 may opUonally be c~ .osed of a micro-porous ~breathable~ material which permits vapors to escape from Ule dbS~I bent core 38 while sUII
preventing liquid ~Yllr~ 4s from passing Uhrough Uhe outer cover 32.
The bodyside liner 34 of Uhe diaper 20, as representaUvely illustrated in Figs. 1-6, suitably presents a bodyfacing surface 36 which is compliant, soft feeling, and nonirritaUng to the wearer's skin. FurU~er, the bodyside liner 34 may be less hydrophilic than Uhe abso, I,ent core 38, to present a relaUvely dry surface to the wearer, and may be sufficienUy porous to be liquid permeable, permitUng liquid to readily penetrate through its 2 5 U l;chl ~ss. A suitable bodyside liner 34 may be manufactured from a wide selecUon of web materials, such as porous foams, reticulated foams, apertured plasUc films, natural fibers (for example, wood or cotton fibers), syntheUc fibers (for example, polyester or polypropylene fibers), or a combinaUon of natural and synUheUc fibers. The bodyside liner 34 is suitably employed to help isolate the wearer's skin from liquids held in the ~s~nt core 38.
Various woven and nG".\ J~n fabrics can be used for the bodyside liner 34. For example, Uhe bodyside liner may be c~r"~,osed of a meltblown or spu~lbonded web of polyolefin fibers. The bodyside liner may also be a bonded-carded web c~" ,posed of natural and/or synthetic fibers. The bodyside liner may be c~" ,~osed of a sulJ~tal,' ~lly hydlùphoGic material, and the hydluphobic material may, opUonally, be treated with a surfactant CA 0223~03~ l998-0~-07 or c ,er~ ~ ~ prucessed to impart a desired level of wettability and hydrophilieity. In a partieular embodiment of the present invenUon, the bodyside liner 34 cu,,,,u, ises a nonwoven, spunbond, polypropylene fabrie cu",~.osed of about 2.8-3.2 denier fibers formed into a web having a basis weight of about 22 grams per square meter and a density of about 0.06 gram per cubic cenUmeter. The fabric is surface treated with about 0.28 weight percent of a surfactant cur"" ~"~;dlly available from Rohm and Haas Co. under the trade designaUon Triton X-102.

The abs~rl~,lt eore 38 of the diaper 20, as lep,userltaUvely illustrated in Figs. 1-6, may suitably eomprise a matrix of hydrophilic fibers, such as a web of eellulosic fluff, mixed with partieles of a high-al,so, bency material co"""onlyknownassl-~uldb~ull~entmaterial. InaparUcularembodiment,theaLso,l,er,teore38cor,~,isesa matrix of cellulosic fluff, such as wood pulp fluff, and su~,erdb~,~"t hydrogel-forming parUcles. The wood pulp fluff may be ex ;l ,anged with synthetie, poly."eric, meltblown fibers or with a combination of meltblown fibers and natural fibers. The su~,erdbsu,be,ll partieles may be substantially ho",ogeneously mixed with the lljJIùph ' - fibers or may be nonuniformly mixed. AlternaUvely, the ~so,l,enl eore 38 may comprise a 1 5 laminate of fibrous webs and su~e, ~IJSUI Le, lt material or other suitable means of maintaining a S~ al,sor~,lt material in a loealized area.

The al,so,l,er,l eore 38 may have any of a number of shapes. For example, the aL,su,ber,l eore may be reetangular, l-shaped, or T-shaped. It is generally preferred that the abso, bent eore 38 be narrower in the 2 O erotch portion 26 than in the front or rear portions 22 and 24 of the diaper 20, ~. r~'iv~ly.

The high-dl,s(" ~n.;y material can be selected from natural, syntheUc, and modified natural polymers and materials. The high-al,so, l,enc~ materials can be inorganic materials, sueh as siliea gels, or organie compounds, such as erosslinked polymers. The term ~-;, ussli, ll~d~ refers to any means for effeeUvely 2 5 lend~i"g normally water-soluble materials substantially water insoluble but .~ ~ 'e. Sueh means ean include, for example, physieal entanglement, erystalline domains, eovalent bonds, ionic eor"~,leAes and assoeiations, hydrophilie assodaUons sueh as hydrogen bonding, and hJJ~uphûbic assodations or Van der Waals forces.

3 O Examples of syntheUc, puly.,~ric, high-absorl~ncy materials include the alkali metal and ammonium salts of poly(acrylic aeid) and poly(methaerylic aeid), poly(aerylamides), poly(vinyl ethers), maleic anhydride - copolymers with vinyl ethers and alpha-olefins, poly(vinyl pyrolidone), poly(vinyl morpholinone), poly(vinyl aleohol), and mixtures and cupo!y,, ~fS thereof. Further polymers suitable for use in the ~bso, I,er,l core inelude natural and modified natural polymers, sueh as hydrolyzed aerylonitrile-grafted starch, aerylie aeid CA 0223~03~ 1998-0~-07 grafted starch, meLhyl cellulose, CdlL~ l thyl cellulose, hydlo~,iop)~l cellulose, and the natural gums, such as alginates, xanthum gum, locust bean gum, and Lhe like. Mixtures of natural and wholly or partially synLheLc al,so, ~l It pulyl "er~ can also be useful in Lhe present invenLon.

5 The high ~IJS~ ~ncy material may be in any of a wide variety of geo" L ic forms. As a general rule, it is preferred Lhat Lhe high dbsorlJell~ material be in the form of discrete particles. However, Lhe high aL,so,l,er,~iy material may also be in Lhe form of fibers, flakes, rods, spheres, needles, or the like. As a general rule, the high al,so,Ler,cy material is present in Lhe absorbent core in an amount of from about 5 to about 90 weight percent based on total weight of Lhe ~I,sorl,ent core 38.
The outer cover 32 and bodyside liner 34 are generally adhered to one another so as to form a pocket in which Lhe ~sor~rlt core 38 is located. Thus, the side edges 28 and longitudinal end edges 30 of Lhe d; ~"o~ lo diaper 20 are suitably formed by portions of the outer cover 32, andlor bodyside liner 34, which extend beyond Lhe sides and longitudinal ends of the absc ~ I,ent core 38. The leg cuffs 42 are suitably formed from the side 15 edges 28 but may also be formed from separate materials which are attached to the outer cover 32 and/or bodyside liner 34. The different col"~onerlt~ of the ~ os~l~'e diaper 20 may be bonded together by any means known to those skilled in the art such as adhesive bonding, ultrasonic bonding, thermal bonding and the like.

2 0 The leg cuffs 42, as rep~senlaUvely illustrated in Figs. 1-6, may include leg elastics as are known to those skilled in the art. Suitable materials which can be used for the leg elasUcs are strands or ribbons of a poly" ~ric, ela~tur, ~ric material which are adhered to the diaper 20 at the leg cuffs 42 while in a stretched position, or which are attached to the diaper while the diaper is pleated, such that elasUc constricUve forces are imparted to the leg cuffs 42. The leg cuffs 42 may be elasUcized along any porUon of their length which 2 5 provides the desired seai against the legs of the wearer. Waist elasUcs 44 and containment fiaps 48, as l~pl~senlativeiy illustrated in Figs. 1-6, may also be elasUcized and are well known to those skilled in the art.
One s~iilled in the art will ~y"i~e that the diaper 20 according to the different aspects of the present invenUon may omit one or more of the de~ ibed components, such as the waist elasUcs 44 or containment flaps 48, depending upon the desired diaper design.
Specific examp~es of d; ~os;~l~!e diapers on which the adhesive of the present invention may be utilized are di~iossd in the following U.S. Patents and U.S. Patenl ApplicaUons: U.S. 4,798,603 issued January 17, 1989, to Meyer et al.; U.S. 5,176,668 issued January 5, 1993, to Bemardin; U.S. 5,176,672 issued CA 0223~03~ 1998-0~-07 January 5, 1993, to Bruemmer et al.; U.S. 5,192,606 issued March 9, 1993, to Proxmire et al., and U.S. Patent ApplicaUon Serial No. 08/096,654 filed July 22, 1993, in the name of Hanson et al.

As I epresenbUvely illustrated in Figs. 1-6, the diaper 20 of the present invention further includes an adhesive 50 which is located on the body~d-;;"g surface 36 of the bodyside liner 34 and arranged in an adhesive patlem.
The adhesive 50 is configured to at least Ib",~,ora,i'y adhere to the body of the wearer. Suitable adhesives for use in the present invention are those that exhibit the desired level of adhesion to the skin for the parUcular applicaUon but which releases from or can be removed from the wearer with a minimum level of discomfort. It is generally preferred that the adhesive 50 adheres to the skin of the wearer without noUceable l~du,dlhi"g 1 0 after it releases or has been removed.

The adhesive 50 of the diaper 20, as l~l,r~se,ltdUvely illustrated in Figs.1-6, is configured to at least ~ldlil~ contact and adhere to the wearer's body to assist in posiUoning and fastening the diaper 20 about the waist of the wearer. In swh a configuraUon, the adhesive 50 may t~",~ord,;ly secure the diaper 20 on the 1 5 wearer's body for a sufficient amount of time such that the care-giver can releasably engage the f~teners 46 to maintain the diaper 20 about the wearer's body. After the diaper 20 is fastened about the wearer, the adhesive may release from the skin of the wearer or may remain adhered to the wearer for an extended duraUon especially if the wearer conUnues to exert a force pressing the adhesive onto the skin. The adhesive 50 can be located in any pattern on any location on the bodyF~ii"g surface 36 of the bodyside liner 34 which 2 0 provides the desired t~r"l,ord,y securement and fastening improvement.

For example, in one configuraUon, as rep~nlaUvely illustrated in Figs. 1-3, the adhesive 50 can be located on the bodyfacing surface 36 of the bodyside liner 34 in the front porUon 22 of the diaper 20. In use, the diaper 20 may then be secured about the wearer according to the following steps: (1) placing the diaper 20 in a laid 2 5 out flat configuraUon with the bodyfacing surface 36 of the bodyside liner 34 exposed; (2) posiUoning the back torso of the wearer on the bodyside liner 34 in the rear porUon 24 of the diaper 20; (3) bringing the front portion 22 of the diaper between the legs of the wearer; (4) applying pressure to press the adhesive 50 against the wearer's body to t~",pora,i'y secure at least the front portion 22 of the diaper 20 to the wearer's body; (5) extending the f~;ter,e, ~ 46 about the side regions of the waist of the wearer; and (6) r~lo~at!y engaging the 3 0 f~t~i ,e, ~ 46 with the front portions 22 of the diaper 20 to secure the diaper 20 about the waist of the wearer.

Accordingly, in such a configuration, the adhesive 50 allows the care-giver to use both hands to releasably engage both fd~tune,~i 46 simultaneously to secure the diaper 20 about the wearer's body in the opUmum location on the first try. As a result, the use of the adhesive 50 can provide a diaper 20 which has an imprwed CA 0223~03~ 1998-0~-07 fastenability about a wearer. This is particularly true when the wearer is active. Thus, in one aspect, the present invention provides a diaper 20 which can be posiUoned on the wearer in the optimum locaUon for improved pe, ~u""a"ce with minimal effort.

5 Several factors affect the ability of the adhesive to achieve the desired t~" ,~Jorary securement of the dbSOI l,enl article about the wearer to assist the care-giver in positioning and attaching the diaper about the wearer.
These factors may include the type of adhesive, the ,1,~ 9k!~l properties of the adhesive such ~, for example, the shear storage modulus and tan delta of the adhesive, the peel strength of the adhesive, the shear strength of the adhesive, the amount of adhesive, the pattern of adhesive, the force used to initially 10 secure the adhesive to the body of the wearer, and any external forces acUng on the adhesive such as the weight of the diaper 20 and the level of acUvity of the wearer.

Any adhesives which provide the desired l~",~,or~"~ securement of the diaper 20 to the wearer without di~co",hrl to the wearer can be used in the present invention. Suitable a il,e~ s may include h;JI~els, 15 silicones, acrylics, polyur.ti,~"es, polyesters, and polyamides. Other suitable adhesives include a rubber-b~ed adhesive such as styrenebutadiene, polyisobutylene, polybutadiene and po';;~p,~ne; a water soluble adhesive such as polyvinyl alcohol, polyvinyl acetate and methyl cellulose; and, desirably, a hot melt adhesive such as block copoly",er~i of styrene-butadiene-styrene, styrene-isoprene-styrene, styrene-ethy,e.1eplopJla.)e-styrene, styrene-ethylenebutylene-styrene and tetrablock copo'~ such as styrene-2 0 ethyleneplopyleno ~,~ne-ethylenep,-p~lel-e. Desirably, the adhesive 50 is a pressure sensitive adhesive.
The adhesive 50 may also include other subxtd"ces such as tacki~;"g resins, oils and the like. Such adhesives are co"",~,~;ially available from Findley Adhesives Company, a business having offices in Wauwatosa, V~,'is~;or,:,i" and the NaUonal Starch and Chemical Company, a business having omces located in Bridgewater, New Jersey.
When the adhesive 50 of the present invention is used primarily to provide a diaper 20 which has improved fasterlability about the wearer, it is desirable that the adhesive 50 have a low adhesion to the skin such that it releases from the skin after a relaUvely short period of time. It has been discovered that suitable adhesives to provide such an improved fastenability are those which have the following properties.
As used herein, the term ~shear storage modulus~ refers to the shear storage modulus value delermined according to the methods de~ ed in the Test Methods secUon below The shear storage modulus value of an adhesive is meant to r~pr~sent the flexibility or stretchabiiity of the adhesive. In the different aspects of the present invention, it is desired that the adhesive ~0 does not exhibit a shear storage modulus which is too low, CA 0223~03~ 1998-0~-07 since such will generally indicate that the adhesive lacks sufficient cohesive strength and will, thus, generally break apart and leave residue upon removal from a wearer's skin. Generally, adhesives which exhibit a higher shear storage modulus are desirable when the adhesive 50 is configured to release from the skin after a short period of time. However, as the shear storage modulus of the adhesive increases, the flexibility of the 5 adhesive will decline. Thus, an adhesive which exhibits a shear storage moduius which is too high may not conform to the wearer's body or may cause mechanical irritation.

Thus, to achieve a generally low level of adhesion to the wearer to provide the desired t~ JUl dl y securement, the adhesive 50 of the present invenUon exhibits a shear storage modulus of at least about 1.0 X 103 and desirably at least about 7.8 X 103 dynes per square centimeter as measured at a temperature of aboul 20~ C
and at a frequency of about 10 radians per second. For example, the adhesive may exhibit a shear storage modulus of from about 1.0 X 103 to about 6.0 X 105 and desirably from about 4.0 X 104 to about 6.0 X 106 dynes per square centimeter as measured at a temperature of about 20~ C and at a frequency of about. 10 radians per second.
As used herein, the term ~tan delta~ refers to the tan delta value determined according to the methods de~ il,ed in the Test Methods secUon below. The tan delta value of an adhesive is meant to repr~senl the raUo between the shear loss modulus and the shear storage modulus of the adhesive.

2 O As used herein, the term ~peel strength~ refers to the peel strength of the adhesive as determined according to the Peel Strength Test de~l iLed in the Test MeUlods secUon below. The peel strength of an adhesive is meant to rep,~st nt U~e adhesive bond strength of the adhesive. In the different aspects of the present invenUon, it is desired that the adhesive 50 does not exhibit a peel strength which is too high, since such will generally indicate that the adhesive is too aggressive and will, thus, remain adhered to the skin of the wearer 2 5 and cause pain and (edl ~ w~ hil ,9 upon removal from the skin. Generally, adhesives which exhibit a lower peel strength are desirable when the adhesive 50 is configured to release from the skin after a short period of time.
However, as the peel strength of the adhesive decreases, the adhesive may not adhere at all to the wearer's body.

3 0 Thus, to achieve the desired level of adhesion to the wearer to provide the desired t~",~u,c,y securement, the adhesive 50 of the present invention exhibits a peel strength of no more than about 300 grams per centimeter of width, desirably no more than about 240 grams per centimeter of width, and more desirà~ly no more than about 160 grams per cenUmeter of width of the adhesive pattern. For example, Uhe adhesive 50 may exhibit a ~ peel strength of from about 0 to about 240 grams per cenUmeter of width, desirably from about 10 to about 160 CA 0223~03~ 1998-0~-07 grams per cenUmeter of width, and more desirably from about 40 to about 100 grams per centimeter of width of the adhesive pattern.

The shear strength of an adhesive is another property of adhesives which is i~ Uol ld"t to the selection of an 5 appropriate adhesive for use in the present invention. The shear strength of an adhesive may vary as the duration of use extends. Accordingly, the shear strength of an adhesive can be determined at the time of application to provide an initial shear strength and at any later designated time to provide an aged shear strength. As used herein, the terms ~initial shear strength' and ~aged shear strength~ refer to the shear strength of the adhesive as determined according to the Shear Strength Test de~, il,ed in the Test Methods 1 0 section below.

The shear strength of an adhesive is also meant to l~p,esent the adhesive bond strength of the adhesive. In the different aspects of the present invention, it is desired that the adhesive 50 does not exhibit an initial shear strength which is too high, since such will generally indicate that the adhesive is too aggressive and will, thus, 1 5 remain adhered to the skin of the wearer and cause pain and l~dnlal killg upon removal from the skin.
Generally, adhesives which exhibit a lower initial shear strength are desirable when the adhesive 50 is configured to release from the skin after a short period of time.

Thus, to achieve the desired level of adhesion to the wearer, the adhesive 50 of the present invention exhibits 2 0 an initial shear strength of no more than about 600 grams per square centimeter, desirably no more than about 530 grams per square centimeter, and more de~il aLly no more than about 430 grams per square centimeter of the adhesive pattern. For example, the adhesive 50 may exhibit an initial shear strength of from about 0 to about 530 grams per square centimeter and desirably from about 30 to about 430 grams per square centimeter of the adhesive pattem.
The aged shear strength of an adhesive is meant to ,~ se"l the shear strength of the adhesive after a specific period of time. Thus, the aged shear strength can indicate the likelihood of the adhesive to release from the skin after a short period of time. In the different aspects of the present invention, it is desired that the adhesive 50 does not exhibit an aged shear strength which is too high, since such will generally indicate that 3 0 the adhesive is too ayy,~vo and will, thus, remain adhered to the skin of the wearer and cause pain and ,~I",a, hi"g upon removal from the skin. Generally, adhesives which exhibit a lower aged shear strength are desirable when the adhesive 50 is configured to release from the skin after a short period of time.

CA 0223~03~ 1998-0~-07 Thus, to achieve the desired level of adhesion to the wearer to provide the desired t~ JUldly securement of the diaper 20 about the wearer, the adhesive 50 of the present invenUon exhibits an aged shear strength of no more than about 500 grams per square cenUmeter, desirably no more than about 450 grams per square cenUmeter, and more desirably no more than about 400 grams per square cenUmeter of the adhesive pattern.
For example, the adhesive 50 may exhibit an aged shear strength of from about O.to about 400 grams per square centimeter, desirably from about 20 to about 340 grams per square centimeter, and more desirably from about 30 to about 250 grams per square cenUrneter of the adhesive pattern.

As de~-, il,ed above, it is desirable that the adhesive of the different aspecls of the present invention releases 1 0 from the skin of the wearer after a period of time. Another property of an adhesive, the cyclic shear, can be used in the selecUon of an appropriate adhesive for use in the present invenUon. As used herein, the term ~cyclic shear~ refers to the cyclic shear value of the adhesive as determined according to the Cyclic Shear Test des~il,ed in the Test Methods secUon below.

1 5 In general, the cyclic shear of an adhesive lepresel,ts the de~ a~i"g ability of an adhesive to remain adhered to the skin of a wearer as the wearer moves during use. Thc cyclic shear is a measure of the number of cycles of movement which an adhesive can endure before separaUng from a surface. In the different aspects of the present invenUon, it is desired that the adhesive 50 does not exhibit a cyclic shear which is too high, since such will generally indicate that the adhesive is too aggressive or too cor"~lialll and stretchable and will, 2 0 thus, remain adhered to the skin of the wearer. Generally, adhesives which have a low cyclic shear, detach from the skin of the wearer afler a relatively short duration.

Thus, the adhesive 50 of the present invention exhibits a cyclic shear of no more than about 100 cycles and desirably no more than about 50 cycles as tested according to the Cyclic Shear Test. For example, the 2 5 adhesive 50 may exhibit a cyclic shear of from O to about 100 cycles, desirably from O to about 50 cycles, and more desirably from O to about 20 cycles.

In a particular aspect, the adhesive of the present invenOon exhibits a peel strength of no more than about 300 grams per centimeter of width, an initial shear strength of no more than about 600 grams per square 3 0 centimeter, and a cyclic shear value of no more than about 100 cycles for improved p~, fi.""~n~.

To provide the improved fastenability and at least telll,udr~,y securement of the diaper 20 to the wearer's body, the adhesive 50 need not cover the entire surface area of the bodyfacing surface 36 of the bodyside liner 34.
For example, the adhesive 5û may be located on no more than about 75 percent, desirably no more than CA 0223~03~ 1998-0~-07 about 25 percent and more desirably no more than about 10 percent of the surface area of the bodyfacing surface 36 of the bodyside liner 34. The amount of adhesive 50 will depend upon the size and weight of the diaper 20, the type of adhesive, the pattern of the adhesive, and the desired level and duraUon of adhesion to the wearer. The adhesive 50 may have an adhesive surface area which is at least about 0.5 square centimeters, desirably from about 0.1 to about 10 square cenUmeters and rnore desirably from about 0.5 to about 4 square cenUmeters to provide sufficient ter"~oraly securement of the diaper 20 to the wearer. The adhesive 50 is desirably applied to the desired porUons of the bodyside liner 34 at an add-on level of from about 0.001 grams per square cenUmeter to about 0.50 grams per square centimeter for illl~Jlu~d pt" ~u""~)ce.

The adhesive 50 can be arranged in any pattern or configuration which provides the improved fastenability of the diaper 20 about the waist of the wearer. Suitable patterns include single or multiple strips of adhesive, an array of dots or ovals of adhesive, swirls of adhesive, linear and non-linear arrays of adhesive, reticulated pattems of adhesive fibers and the like. For example, in one configuraUon as replesel)tatively illustrated in 1 5 Figs. 1 and 2, the adhesive 50 may include a single strip of adhesive 56 which extends laterally along the longitudinal end edge 30 of the diaper 20. Desirably, the single strip of adhesive 56 is located in the front porUon 22 of the diaper 20.

The strip of adhesive 56, as ~pr~s~ ~laUvely illustrated in Figs. 1 and 2, may have a length 58 of from about 1 2 0 to about 35 cenbmeters and desirably from about 2 to about 8 cenbmeters to provide the at least t~" ,,~ol al y securement and improved fastenability. The strip of adhesive 56 may also have a width 60 of from about 0.5 to about 5 ce,hi",vt,rs and desirably from about 0.5 to about 2 cenUmeters and a thickness 52 of from about 0.001 to about 1 millimeter. The strip of adhesive 56 may also be spaced inwardly from the longitudinal end edge 30 of the diaper 20 a distance of from about 0 to about 6 cenUmeters and desirably from about 0 to about 2 5 2.5 cenbmeters to provide improved pel F~,""d"ce.

As ,ff~,rusdntdtively illustrated in Fig. 3, the adhesive 50 may also be arranged as a pattern of dots 54 6c!e the'J located on the bodyfd~.;"g surface 36 of the bodyside liner 34 of the diaper 20 in the front portion 22 of the diaper 20 to provide the desired improved fastenability. For example, from 1 to about 15 dots 3 0 of adhesive may be located in the front porbon 22 of the diaper 20. The dots 54 may be arranged in any suitable configurabon which may be linear or non-linear. To provide the desired amount of adhesive surface area, each dot 54 may have a surface area of from about 0.04 to about 9.0 square centimeters and desirably from about 0.36 to about 3.0 square cenbmeters.

CA 0223~03~ 1998-0~-07 The low levels of adhesion and short duraUon of adhesion to the skin of the wearer of the adhesive 50 of the present invenUon advantageously provide sufficient ~ a~y securement of the diaper 20 to the wearer to improve the fastenability of the diaper 20 while maintaining the level of irritaUon, red marking and ~ . I to the wearer at a minimum. Such adhesives, having the properties de~;, il,ed above, are capable of providing at 5 least sufficient t~",porary adhesion to the body of the wearer to allow the care-giver enough Ume to fasten the diaper 20 about the waist of the wearer using both hands. A parUcularly suitable adhesive 50 for use in providing the at least ~ lpOidly securement and improved fastenability is an adhesive which is based on polyisobutylene and is formulated from three co",~,onerlt~. Two c~r"~onent~ are co"",~rc;ally available from Exxon Chemical Company, a business havin9 offices located in Baytown Texas under the trade designaUon 1 0 Vlstanex L-120 and Butyl 065. The third c~u,~uon~"l is cc""",~ ;ally available from Amoco Chemical Company, a business having offices located in Chicago, lllinois, under the trade designaUon Polybutene H-25.
The c~",poner,ts are mixed accordi"g to the procedure set forth in Example 8.

The adhesive 50 of the present invention may also be configured to provide other benefits. For example, as 1 5 ,~preser,taUvely illustrated in Figs.1-6, the adhesive 50 may be located in the front porUon 22 of the diaper 20 to reduce the rollover of the end edge 30 of the front porUon 22 of the diaper 20. The reduction in rollover of the front edge of the diaper may result in reduced leakage of body exudates.

The adhesive 50 of the different aspects of the present invenUon may also be configured to provide addiUonal 2 0 support for the diaper 20 about the wearer to maintain the diaper 20 in a proper position on the body of the wearer when in use to ensure an optimum fit to reduce leakage. For example as representatively illustrated in Figs. 4-6 the adhesive 50 may be se!~tivoly located about the outer periphery of the diaper 20 to help support the diaper 20 about the wearer to minimize any sagging or drooping of the diaper 20. The adhesive 50 may also be configured to maintain selected regions or Cu"~OI ,enl~ of the diaper 20 in a contacUng 2 5 relaUonship with the body of the wearer when in use. For example, the adhesive 50 may be located in the crotch portion 26 of the diaper 20 to maintain the crotch porUon 26 in a contacUng reiaUonship with the wearer.

Further the adhesive 50 may be selecUvely located on the bGdyfd.i;l lg surface 36 of the bodyside liner 34 of the diaper 20 to also provide a seal or barrier around at least a porlion of the outer perimeter of the diaper 20.
3 0 For exarnple, as ,~pr~sel)tdtively illustrated in Figs. 4 and 5, the diaper 20 may include a pair of strips of adhesive 56 which extend laterally along each longitudinal end edge 30 of the diaper 20 to reduce the leakage of body exudates along the front and back waist of the wearer. Such a configuraUon is parUcularly effecUve in reducing leakage in diapers which are intended for use by male infants. The strips of adhesive 56 may have a length 58 of from about 1 to about 35 cenli" ,~ t~ ~ and desirably from about 5 to about 10 cenUmeters to CA 0223~03~ 1998-0~-07 provide the desired seal and barrier. The strips of adhesive 56 may also have a width 60 of from about 0.5 to about 5 cenUmeters and desirably from about 0.5 to about 2 centimeters and a U,k;k"ess 52 of from about 0.001 to aboul 5 millimeters lo help reduce the leakage of body exudates. Further, the strips of adhesive 56 may be spaced inwardly from the longitudinal end edge 30 of the diaper 20 a distance of from about 0 to about 6 centimeters and desirably from about 0 to about 2.5 centirneters to provide i" ,~,, u l_d pe, f~.", ldl ,ce.

In a particular aspect of the present invention wherein the diaper 20 includes containment flaps 48 as ~pre~ntatively illustrated in Figs. 4 and 5, it is desirable that the strips of adhesive 56 extend laterally across at least a portion of the width and, even more desirable, across the entire width of the diaper 20 between the 1 0 containment flaps 48. In such a configuration, the combination of the strips of adhesive 56 and the containment flaps 48 effectively provides a ssal and barrier to the flow of body exudates.

As re~esentatively illustrated in Figs. 4 and 5, the diaper 20 may also inciude a pair of strips of adhesive 64 which extend longitudinally along the side edges 28 of the diaper 20 in at least the crotch portion 26 of the 1 5 diaper 20 to reduce the leakage of body exudates around the legs of the wearer. The side strips of adhesive 64 may inciude several seyllK~l ,t~ of varying lengths or one continuous segment of adhesive. Desirably, the side strips of adhesive 64 include a sin91e continuous segment as lepresentatively illustrated in Figs. 4 and 5.
As illustrated, the side strips of adhesive 64 may have a length 66 of from about 5 to about 52 centimeters and desirably from about 7.5 to about 30 centimeters to provide the desired seal and barrier around the legs of the 2 0 wearer. The strips of adhesive 64 may also have a width 68 of from about 0.2 to about 5 centimeters and desirably from about 0.2 to about 2 centimeters and a Uli~;klless 52 of from about 0.001 to about 5 millimeters.
The strips of adhesive 64 may also be spaced inwardly a distance 70 of from about 0 to about 4 and desirably from about 0 to about 2 centimeters.

2 5 In an altemative configuration, the diaper 20 may include a pattern of dots of adhesive located on the bodyfacing surface 36 of the bodyside liner 34 of the diaper 20. The dots of adhesive are configured to addiUonally support and maintain the diaper 20 in proper posiUon on the wearer and s~ tiv~,'y provide a seal or barrier to reduce leakage of body exudates. For example, as l~preserltaUvely illustrated in Fig. 6, the diaper 20 may include a pattern of dots 54 of adhesive whiwh are located on the bodyside liner 34 along the outer 3 0 periphery of the diaper 20. Desirably, the dots 64 of adhesive are located on the boJy~duil lg surface 36 of the bodyside liner 34 at least along the longitudinal end edges 30 of the diaper 20 to reduce leakage of body exudates along the waist of the wearer. The dots 64 ûf adhesive may also be located along the side edges 28 of the diaper 20 in at least the wotch portion 26 to reduce the leakage of body exudates around the legs of the wearer.

CA 0223~03~ 1998-0~-07 WO 97t17926 PCT/US96/17683 If it is also desirable that the adhesive 50 of the different aspects of the present invenUon function as a seal or barrier or maintain the diaper 20 in contact with the wearer during use the adhesive 50 should have a total adhesive surface area of at least about 10 and desirably from about 10 to about 383 square centimeters.
- 5 Moreover N it is desirable that the adhesive 50 function as a dam or barrier to the flow of exudates the adhesive 50 should have a U,;chl,ess 52 of at least about 1 millimeters and desirably from about 1 to about 5 millimeters.

Even though the adhesive 50 of the present invenUon desirably has a low level of adhesion to the wearer, the 1 0 adhesive may still function to provide the other benefits de~ibed above due to forces applied by the wearer which may tend to cause the adhesive to remain adhered or leadllel~d to the skin of the wearer during use.
The adhesive 50 of the present invenUon can be applied to the bodyfacing surface 36 of the bodyside liner 34 by methods known to those skilled in the art. For example the adhesive 50 may be applied by slot coating screen printing, or extrusion techniques as are known.
The diaper 20 according to the different aspects of the present invention may further include at least one removable cover sheet which is used to cover the adhesive 50 prior to the Ume when the diaper is to be fastened to the wearer's body. The re,,,uJaLle wver sheet serves to protect the adhesive 50 from securing to other surfaces prior to use and to prevent wnla,,,;, ,ation of the adhesive 50. Suitable materials for the 2 0 removabie cover sheet include materials which are capable of being releasably secured to the adhesive 50.

Examples The following ~ les are presented to provide a more detailed u"der~t~"ding of the invenUon. The particular materials and parameters are exer"l,la~y and are not intended to iimit the scope of the invenUon.

Test Methods Rl~slo~ ProperUes The, h eoloy; j~l analysis of an adhesive sample is a method of determining the vis s ~ properties of the 3 0 adhesive sample. The IllRslo9;cill measurements are obtained by using a Rl,eo".:t, ics Dynamic Spectrometer, model RDS IIE, available from Rheometrics Inc., Piscataway New Jersey, by using the - procedures well known to those skilled in the art and l~w"",~nded in the operaUng manual, the wontents of which are herein inworporated by reference. The Iheslo,J; ~l properties are measured for adhesive samples having a U,kiklless of between about 1 to about 4 millimeters. The adhesive sample is cut into a 25 millimeter CA 0223~03~ 1998-0~-07 diameter circle ana placea ~etween IwO 25 millimeter diameter parallel plale nxwres ot ~e s~ec~ u" ,eter. I ne upper plate is lowered onto the adhesive sample un~il a normal force meter indicates a slight d ~ n. The shear strain applied to the adhesive sample is about 1 percent. The shear storage modulus and the shear loss modulus values for the adhesive sample are measured at a l~l",uer~ture of about 20~ C and at a 5 frequency of about 10 radians per second.

Peel Strength Test This test procedure de(~r~ es the average load, measured in grams force per unit undth of the adhesive pattern, required to remove an adhesive from a surface such as the skin of a wearer in a peel mode. The peel 10 strength of an adhesive sample is determined using a modified Pressure Sensitive Tape Council 180~ peel l~i;;t~llCd test (PSTC-1) described below. PSTC-1 is a ~t~da~di~ed test procedure that is described in greater detail on page 23 of the tenth edition of Test Methods copyright 1992, available from Pressure Sensitive Tape Council 401 North Michigan Avenue Chicago, IL the disclosure of which is herein i"cwl,orated by ,. ~nce. The peel strength values are determined according to the following procedure.
Equipment 1. Tensile tester capable of obtaining a peak load and equipped with an appropriate load cell. A suitable tensile testing system is a Model 2 Materials Test System Sintech Tensile Tester co"""eruially available from MTS Sintech, Research Triangle Park North Carolina.
2 O 2. Rubber covered roller, 4.5 pounds, cun""er~lly available from Chemsultants International Network Mentor, Ohio, under the part number RD-1000.
3. Stainless steel plate having di",ell~ions 5.1 centimeters X 15.24 centimeters and a U,;cl."ess of 0.152 centimeters.

4. Double sided adhesive tape, 2.54 centimeters wide, 3M #665 cor"",el. ;ally available from the 3M
Corporation Minneapolis,Minnesota.

Sample Preparation 1. A piece of the double sided adhesive tape is attached to the top and bottom edges of the stainless steel plate.
2. A piece of el"l,ossed polyethylene film having a UUchlless of 2 mils, dil"en~ions of 5.1 X 15.24 celltilll-t--~, and a regular taffeta pattern which is co""lleluially available from Edison Plastics Company is secured to the adhesive tape. The female side of the film is attached to the tape.

CA 0223~03~ 1998-0~-07 WO 97t17926 PCT/US96/17683 3. An adhesive test sample is molded and cured on a flexible substrate such as a non-woven material or polyelhylene film in a predetermined pattern. Alternatively, if the adhesive has been previously molded and cured on the bodyside liner of an absu, bdnt arUcle, the portion of the bodyside liner containing the adhesive may be removed and used in the test.

5 4. The width of the adhesive pattern is measured and recorded.
5. A leading strip of non-stretchable material, such as conventional release paper, is attached to an end of the flexible substrate.

6. The adhesive test sample is placed on the male side of the polyethylene film and pressed down with the roller, one pass in each direction at a,up,oAi,,,ately 300 millimeters per minute.
Test Procedure 1. Afler the sample is prepared, the sample is immediately inserted into the tensile tester.
2. The jaws of the tester are initially set 17.78 centimeters apart.
3. One end (1.27 cm) of the steel plate is centered and secured in the stationary jaw and the leading strip is doubled back and clamped in a centered ~ nge~,enl in the moving jaw of the tester.
4. The tester is proy,.J"",~d to travel at a rate of 300 millimeters per minute.5. The crosshead is starled in motion.
6. The average load is recorded and the peel strength of the sample is dGt.,r" ,;"ed by dividing the average load by the width of the adhesive pattem.
Shear Strength Test This test procedure determines the peak load, measured in grams force per unit area, required to remwe and adhesive from a surface such as the skin of a wearer in a shear mode.

2 5 Equipment 1. Tensile tester capable of obtaining a peak load and equipped with an appropriate load cell. A suitable tensile testing system is a Model 2 Materials Test System Sintech Tensile Tester, cor"",e,~;ially available from MTS Sintech, Research Triangle Park, North Carolina.
2. Rubber covered roller, 4.5 pounds, ccll~ rc:.,l'f available from Chemsultants International Network, 3 0 Mentor, Ohio, under the part number RD-1000.
3. Stainless steel plate having dimel)sions 5.1 centimeters X 15.24 centimeters and a U Uckrle~s of 0.15 cenUmeters.
4. Double sided adhesive tape, 2.54 centimeters wide, 3M #665 co"""er~ z.'ly available from the 3M
CorporaUon, Minneapolis, Minnesota.

CA 0223~03~ 1998-0~-07 Sample PreparaUon 1. A piece of the double sided adhesive tape is attached to the top and bottom edges of the stainless steel plate.
2. A piece of embossed polyethylene film having a Ul;ulhles~ of 2 mils dit"en~ioils of 5.1 X 15.24 centimeters, and a regular tafleta pattern which is COIllll~l~ ;a'ly available from Edison PlasUcs Company is secured to Uhe adhesive tape. The female side of the film is attached to the tape.
3. An adhesive test sample is molded and cured on a flexible substrate such as a non-woven material or polyethylene film in a pr~det~, I";"ed pattern. Alternatively, if the adhesive has been previously molded and cured on the bodyside liner of an at,s("l,ent article, the porUon of the bodyside liner containing the adhesive may be removed and used in Uhe test.
4. The area of the adhesive pattern is measured and recorded.
5. A leading strip of non-stretchable material such as conventional release paper, is attached to an end of the flexible substrate.
6. The adhesive test sample is placed on the male side of the polyethylene film and pressed down with the roller one pass in each direction at ~ UAil ~,ately 300 millimeters per minute.

Test Procedure 1. Afler the sample is prepared, the sample is inserted into the tensile tester.
2. The jaws of the tester are iniUally set 15.24 centimeters apart.
2 O 3. One edge (1.27 cm) of Uhe steel plate is centered and secured in the stationary jaw and the leading strip is doubled back and clamped in a centered a~ I a nge~ ,t in the moving jaw of the tester.
4. The tester is pruy~"""ed lo travel at a rate of 100 millimeters per minute.
5. The ~i,o~l,ead is started in moUon.
6. The peak load is recorded. The shear strength is determined by dividing the peak load by the area of 2 5 the adl,e: ;~o pattern. The shear strength is determined immediately after the sample is prepared to determine an initial shear strength~ of the adhesive or afler waiting for a period of 30 minutes afler the sample is plep~d to dvt~ r,,,;,,e an ~aged shear strength.

Cyclic Test 3 O This test procedure determines the adhesion level between an adhesive and a substrate as it is subjected to a cyclical loading. The test measures the number of cycles required to achieve a peak load of 30 grams per square centimeter between the adhesive and the substrate. The test is indicaUve of how the adhesive will funcUon when adhered to an active wearer.

CA 0223~03~ 1998-0~-07 Fqn~ment ' 1. Tensile tester capable of obtaining a peak load and equipped with an appropriate load cell. A suitable tensile testing system is a Model 810 Materials Test System, co"""ercially available from MTS Sintech Research Triangle Park, North Carolina.
2. Rubber covered roller 4.5 pounds collllllerc;a: J available from Chemsultants International Network Mentor Ohio,-under the part number RD-1000.
3. Stainle~ steel plate having dimensions of 5.1 cenUmeters X 15.24 centimeters and a U l;~kr ,ess of 0.15 cenUmeters.
4. Double sided adhesive tape, 2.54 centimeters wide 3M #665 co"""ercially available from the 3M
Corporaffon Minneapolis I\li~"~esota.

Sample PreparaUon 1. A piece of the double sided adhesive tape is attached to the top and bottom edges of the stainless steel plate.
2. A piece of e",bossed polyethylene film having a thickne~ of 2 mils, din~n~ions of 5.1 X 15.24 cenUmeters and a regular taffeta pattern which is co"""erl;ially available from Edison Plastics Company is secured to the adhesive tape. The female side of the film is attached to the tape.
3. An adhesive test sample is molded and cured on a flexible substrate such as a non-woven material or polybthylene film. AlternaUvely if the adhesive has been previously molded and cured on the bodyside 2 0 !iner of an absorbel)t arUcle the porUon of the bodyside liner containing the adhesive may be remwed and used in the test.
4. A leading strip of non-stretchable material, such as conventional release paper, is attached to an end of the flexible substrate.
5. The adhesive test sample is placed on the male side of the poly~h'lylene film and pressed down with 2 5 the roller one pa~ in each direcUon at ~l~pluxill .Jl~ J 300 millimeters per minute.

Test Procedure 1. After the sample is prepared, the sample is inserted into the tensile tester.2. The jaws of the tester are iniUally set 15.24 cenUmeters apart.
3 0 3. One edge (1.27 cm) of the steel plate is centered and secured in the staUonary jaw and the leading strip is doubled back and clamped in a centered dl I al ,ge~ ~ ~enl in the moving jaw of the tester.
~ 4. The tester is p~yl~lllllled to cycle at a frequency of 1 Hz at an amplitude of about 3.8 centimeters.
5. The tester is started.

CA 0223~03~ 1998-0~-07 6. The maximum load is recorded for each cycle. The number of cycles that nave lapsed when the load reaches a value which is at or below 30 grams per square cenUmeter is recorded as the cyclic shear value.

Exarnple 1 An adhesive which is available from Findley Adhesives Company under the trade designation ~Findley 2465-Y' was slol coated on a polypropylene spunbond nonwoven material having a basis weight of 0.8 ounces per square yard to provide three samples. The adhesive on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The samples were then ~l ~bjec~d to the Peel Strength Test, Shear Strength Test, 1 0 and Cyclic Tesl.

The samples had an average peel strength of 95 grams per 12.5 millimeters width, an average iniUal shear strength of 847 grams per 1.61 square centimeters, an average aged shear strength of 716 grams per 1.61 square cenUmeters, and a cyclic shear value of 45 cycles. The data is also recorded in Table 1. This data 1 5 col lesponds to an average peel strength of 76 grams per cenUmeter of width, an average iniUal shear strength of 526 grams per square cenUmeler, and an average aged shear strength of 445 grams per square cenUmeter.

Example 2 2 0 An adhesive which is available from Findley Adhesives Company under the trade designaUon 'Findley 246~
E8' was slot coated on a polypropylene spunbond nonwoven material having a basis weight of 0.8 ounces per square yard to provide three samples. The adhesive on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The samples were then subjected to the Peel Strength Test, Shear Strength Test, and Cyclic Test.
The samples had an average peel strength of 50 grams per 12.5 millimeters widUh, an average initial shear strength of 268 grams per 1.61 square cer,t;,ll :.r~, an average aged shear strength of 134 grams per 1.61 square cenUmeters, and a cyclic shear value of l cycle. The data is also recorded in Table 1. This data coll~o,lds to an average peel strength of 40 grams per cellq~ ' r of width, an average iniUal shear strength 3 0 of 166 grams per square cenUmeter, and an average aged shear strength of 83 grams per square cenUmeter.

FY~rnple 3 An adhesive whose cu,, l~onents were COI l ll "erc;2"J available from Dow Corning Company, Midland, Michigan, under the trade designaUon Q3-6636 Part A and Q3-6636 Part B was prepared as follows. The Part A and CA 0223~03~ 1998-0~-07 Part B cor"pon~, lt~ were mixed in the proportion 5.6/4.6 by weight to provide the adhesive. A first mold was prepared by cutting a 4 inch by 4 inch square through a Teflon-coated sheet having a length of about 5 inches, a width of about 5 inches and a U,;~kl~ss of about 0.062 inches. The mold was supported by another Teflon-coated sheet having the same length, width and U,icl~l,ess di",ensions. The adhesive was poured into the 5 rnold cavity to the top of the Teflon-coated sheet, for a U,k;l~"ess of about 0.062 inches. The mold assembly was then placed in an air-circulating oven at about 123 degrees centigrade for about 30 minutes and then allowed to cool to ambient temperature. The resulUng adhesive had a Shear Storage Modulus of 2.81x104 dynes per square cenUmeter and a tan delta of 0.353 as measured at about 20~C and at a frequency of about 10 radians per second.
A second mold was prepared by cutting a slot having a width of 6.35 millimeters and a length of 25.4 millimeters through a Teflon-coated sheet having a Ul;ohlless of about 0.062 inches. The mold was supported by a laminate of a poly~JropJIlene spunbond nonwoven material having a basis weight of 0.8 ounces per square yard and another Teflon-coated sheet. The adhesive was poured into the mold cavity on the polypropylene 5 material to the top of the Teflon-coated sheet, for a thickness of about 0.062 inches. The mold assembly was then placed in an air-circulaUng oven at about 123 degrees cenUgrade for about 30 minutes and then allowed to cool to ambient temperature. Three samples of the adhesive were prepared. The samples were then subjected to the Peel Strength Test, Shear Strength Test, and Cyclic Test.

2 0 The samples had an average peel strength of I .0 grams per 12.5 millimeters width, an average initial shear strength of 67 grams per 1.61 square cenUmeters, an average aged shear strength of 53 grams per 1.61 square cenUrneters, and a cyclic shear value of 1 cycle. The data is also recorded in Table 1. This data co"dspor,ds to an average peel strength of 0.80 grams per centimeter of width, an average iniUal shear strength of 41.6 grams per square cenUmeter, and an average aged shear strength of 32.9 grams per square 2 5 centimeter.

Example 4 An adhesive whose co" ,~,onent~ were col"",e,~ially available from Dow Corning Company, Midland, Michigan, under the trade designaUon Q~6636 Part A and Q~6636 Part B was prepared as follows. The Part A and 3 0 Part B cc"~on6r,t~ were mixed in the propo~ ti-n 515 by weight to provide the adhesive. Afirst mold was prepared by cutting a 4 inch by 4 inch square through a Teflon-coated sheet having a length of about 5 inches, a width of about 5 inches and a 0 ~ ~ ,ess of about 0.062 inches. The mold was supported by another Teflon-coated sheet having the same length, width and thickness din~n~ions. The adhesive was poured into the - mold cavity to the top of the Teflon-coated sheet, for a U ~ ess of about 0.062 inches. The mold a~" lLly CA 0223~03~ l998-0~-07 was then placed in an air-circulating oven at about 123 degrees ~, lti9~ ade for about 30 minutes and then allowed to cool to ambient temperature. The resulting adhesive had a Shear Storage Modulus of 7.83x103 dynes per square centimeter and a tan delta of 0.984 as measured at about 20~C and at a frequency of about 10 radians per second.

A second mold was prepared by cutting a slot having a width of 6.35 millimeters and a length of 25.4 millimeters through a Tenon-coated sheet having a ll,;vI~.,e~ of about 0.062 inches. The mold was supported by a laminate of a polypropylene spunbond n~. c~ material having a basis weight of 0.8 ounces per square yard and another Teflon-coated sheet. The adhesive was poured into the mold cavity on the polypropylene 1 0 material to the top of the Teflon-coated sheet, for a thickness of about 0.062 inches. The mold ass6"lLly was then placed in an air-circulaUng oven at about 123 degrees centigrade for about 30 minutes and then allowed to cool to ambient temperature. Three samples of the adhesive were prepared. The samples were then subjected to the Peel Strength Test, Shear Strength Test, and Cyciic Test.

1 5 The samples had an average peel strength of 55 grams per 12.5 millimeters width, an average iniUal shear strength of 142 grams per 1.61 square cenUmeters, an average aged shear strength of 72 grams per 1.61 square centimeters, and a cyclic shear value of 16 cycles. The data is also recorded in Table 1. This data corl~s~~ to an average peel strength of 44 grarns per centimeter of width, an average initial shear strength of 8~.2 grams per square centimeter, and an average aged shear strength of 44.7 grams per square 2 0 centimeter.

Example S
An adhesive which is available from The National Starch and Chemical Company under the trade designaUon '8111-69-2~ was screen printed on a polyfnu~J~vne spunbond nonwoven material having a basis weight of 0.8 2 5 ounces per square yard to provide three sampes. The adhesive on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The adhesive had a Shear Storage Modulus of 5.85x105 dynes per square centimeter and a tan delta of 0.437 as measured at about 20~C and at a frequency of about 10 radians per second. The samples were then s~lhjectQd to the Peel Strength Test, Shear Strength Test, and Cyclic Test.
The samples had an average peel strength of 160 grams per 12.5 millimeters width, an average initial shear strength of 834 grams per 1.61 square centimeters, an average aged shear strength of 624 grams per 1.61 square centimeters, and a cyclic shear value of 3 cycles. The data is also recorded in Table 1. This data ~ul I v~nds to an average peel strength of 128 grams per centimeter of width, an average initial shear CA 0223~03~ l998-0~-07 strength of 518 grams per square cenUmeter, and an average aged shear strength of 388 grams per square cenffmeter.

Example 6 An adhesive which is cor""~rcially available from The NaUonal Starch and Chemical Company under the trade designaUon ~34-5607~ was slot coated on a polypropylene spunbond no".v~: ,n material having a basis weight of 0.8 ounces per square yard to provide three samples. The adhesive on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The adhesive had a Shear Storage Modulus of 6.58x104 dynes per square centimeter and a tan delta of 0.274 as measured at about 20~C and at a frequency of about 1 0 10 radians per second. The samples were then sllhjechd to the Peel Strength Test, Shear Strength Test, and Cyclic Test.

The samples had an average peel strength of 170 grams per 12.5 millimeters width, an average initial shear strength of 695 grams per 1.61 square centimeters, and a cyclic shear value of 5 cycles. The data is also 1 5 recorded in Table 1. This data co"~ ,ol)ds to an average peel strength of 136 grams per cenUmeter of width and an average iniUal shear strength of 432 grams per square cenUmeter.

FY~rnple 7 An adhesive which is available from The National Starch and Chemical Company under the trade designation 2 0 '7659-41-3~ was screen printed on a polypropylene spunbond nonwoven material having a basis weight of 0.8 ounces per square yard in an adhesive pattern of densified ovals which covered 37 percent of the area in the pattern to provide three samples. The adhesive pattern on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The adhesive had a Shear Storage Modulus of 5.83x105 dynes per square centimeter and a tan delta of 0.475 as measured at about 20~C and at a frequency of about 10 radians per 2 5 second. The samples were then s~ ~hjeGted to the Peel Strength Test. The samples had an average peel strength of 220 grams per 12.5 millimeters width. The data is also recorded in Table 1. This data cor,~sponds to an average peel strength of 176 grams per centimeter of width.

Example 8 3 0 An adhesive which was based on polyisobutylene and was formulated from three co",polle"t~ was tested.
Two cor,~one,lts are cu,,,,,,~,~,~ally available from Exxon Chemical Corr~any, a business having offices - located in Baytown, Texas, under the trade designation ~Istanex L-120 and Butyl 065. The third con,ponerlt is corlHI~l~cHly available from Amoco Chemical Company, a business having offices located in Chicago, lllinois, under the trade designation Polybutene H-25. About 99.5 parts by weight of CA 0223~03~ 1998-0~-07 L-120, 30 parts by weighl Butyl 065 and 89.5 parts by weight Polybutene H-25 were used in the formulaUon.
The cur"l,onent~ were mixed in a high shear mixer of the type D-51-T which is co"",~r~ally available from B~ er,der Industries, a business having offices located in l lackensack, New Jersey. The mixer was.
preheated to 70 degrees centigrade. The L-120 and Butyl 065 cor"pone"t~ were masticated for about five 5 minutes and the temperature of the mixer was raised to 150 degrees centigrade. The Polybutene H-25 was then introduced in small doses over a period of 30 minutes. The formulation was mixed for about five more minutes and then allowed to cool to ambient temperature.

Small portions of the adhesive were then piaced between silicone coated release paper and hot pressed at a 1 0 temperature of about 150 degrees cenUgrade and five pounds per square inch in a press cu~ c;ally available from Dake CorporaUon, a business having offices located in Grand Haven, Michigan. The resulUng adhesive film was then laminated to a spunbond polypropylene nonwoven material having a basis weight of about 0.8 ounces per square yard in the Dake press at a temperature of about 100 degrees cenUgrade and a pressure of about 10 psi. The adhesive had a Shear Storage Modulus of 9.37x105 dynes per square 1 5 centimeter and a tan delta of 0.136 as measured at about20~C and at a frequency of about 10 radians per second. The samples were then subjected to the Peel Strength Test, Shear Strength Test, and Cyciic Test.

The samples had an average peel strength of 75 grams per 12.5 millimeters width, an average initial shear strength of 460 grams per 1.61 square cenUmeters, an average aged shear strength of 388 grams per 1.61 2 0 square centimeters, and a cyclic shear value of 1 cycle. The data is also recorded in Table 1. This data w"~iponds lo an average peel strength of 60 grams per centimeter of width, an average iniUal shear strength of 286 grams per square cenUmeter, and an average aged shear strength of 241 grams per square c,entimeter.

2 5 Comparative FY~mple 1 An adhesive which is col""~,cially available from Findley Adhesives Company under the trade designaUon 'Findley H2292~ was screen printed on a polypropylene spunbond nol, ~von material having a basis weight of 0.8 ounces per square yard in an adhesive pattern of densified ovals which covered 37 percent of the area in the pattem to provide three samples. The adhesive was being used as a cwnstruction adhesive on Huggies~
3 0 Supreme diapers which were cu,,,,,,ercidlly available from Kimberly-Clark. The adhesive pattem on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The adhesive had a Shear Storage Modulus of 9.04x10~ and a tan delta of 1.509 as measured at about 20~C and at a frequency of about 10 radians per second. The samples were then subjected to the Peel Strength Test and Shear Strength Test.

CA 0223~03~ 1998-0~-07 The samples had an average peel strength of 450 grams per 12.5 millimeters wi~th and an average initial shear strength of 1045 grams per 1.61 square oentimeters. The data is also recorded in Table 1. This data co"~ds~,onds to an average peel strength of 360 grams per oentimeter of width and an average iniUal shear strength of 650 grams per square oentimeter. The peel strength and shear strength of this adhesive were very 5 high and consequently the adhesive had a very high adhesion to the po'yuthylene and would be too agyles~.:e for the different aspects of the present invention.

Comparative Example 2 An adhesive which is available from The National Starch and Chemical Company under the trade designation 1 0 7659-41-3~ was screen printed on a polypropylene spunbond nonwoven material having a basis weight of 0.8 ounces per square yard to provide three samples. The adhesive on each sample had a width of 6.35 millimeters and a length of 25.4 millimeters. The adhesive had a Shear Storage Modulus of 5.83x105 dynes per square oentimeter and a tan delta of 0.475 as measured at about 20~C and at a frequency of about 10 radians per second. The samples were then subjected to the Peel Strength Test, Shear Strength Test, and 1 5 Cyclic Test.

The samples had an averago peel strength of 380 grams per 12.5 millimeters width, an average initial shear strength of 1321 grams per 1.61 square centimeters, an average aged shear strength of 1103 grams per 1.61 square oentimeters, and a cyclic shear value of 22 cycles. The data is also recorded in Table 1. This data 2 0 co"~d~nds to an average peel strength of 304 grams per oentimeter of width, an average iniUal shear strength of 820 grams per square centimeter, and an average agod shear strengUh of 685 grams per square centimeter. The peel strength and shear strengUh of this adhesive were very high and consequenUy the adhesive had a very high adhesion to the polyeUhylene and would be too aggressive for Uhe different aspects of the present invention.
Comparative FY~nlple 3 An adhesive whose ~",l~onellt~were wl"",ur.,ially available from Dow Corning Company, Midland, Michigan, under the trade designaUon Q3-6636 Part A and Q3-6636 Part B was prepared as follows. The Part A and Part B cu",~,one"t~ were mixed in Uhe proportion 3.516.5 by weight to provide Uhe adhesive. A mold was 3 0 prepared by cutting a slot having a width of 6.35 millimeters and a lengUh of 25.4 millimeters through a Teflon-coated sheet having a thickness of about 0.062 inches. The mold was supported by a laminate of a polypropylene spunbond nonwoven material having a basis weight of 0.8 ounoes per square yard and another Tef!on~oated sheet. The adhesive was poured into the mold cavity on U~e poly~,~J~,ylene material to the top of the Teflon-coated sheet, for a thickness of about 0.062 inches. The mold ass~r,lb!y was then plaoed in an air-circulating oven at about 1Z3 degrees cenUgrade for about 30 minutes and then allowed to cool to ambient temperature. Three samples of the adhesive were prepared. The samples were then subjected to the Peel Strength Test, Shear Strength Test, and Cyclic Test.

5 The samples fell off the tester before it could be started in moUon in the Peel Strength Test and had an average initial shear strength of 54 grams per 1.61 square centimeters. The data is also recorded in Table 1.
This data c.,~ ol)ds to an average initial shear strength of 33.5 grams per square centimeter. As a result, this adhesive would not provide even a le"~, olaly securement to a wearer to faciiitate the fastening of the article about the wearer as desired in the present invention.
Table 1 Initial Aged Shear Peel Shear Shear 1 5 Storage Strength Strength StrengthCyclic Modulus Tan (grams/ (gramsl (grams/ Shear (dy.,es/c",2) Delta12.5mm) 1.61 cm2) 1.61 cm2)(cycles) Ex. 1 95 847 716 45 2 0 Ex. 2 50 268 134 i x. 3 2.81x104 0.353 l 67 53 i x. 4 7.83x103 0.984 55 142 72 16 i-x. 5 5.85x105 0.437 160 834 624 3 i-~. 6 6.58x104 0.274 170 695 5 i x. 7 5.83x105 0.475 220 i-x. 8 9.37x105 0.136 75 460 388 C.Ex. 1 9.04x105 1.509 450 1045 C.i-x. 2 5.83x105 0.475 380 1321 1103 22 C.i-x. 3 54 ~ - Fell off before test could be run 3 5 The results from the exd",ples l~presehlatively show the effect of the different variables such as, the heok~;c~ pe, ~es of the adhesive and the pattern of the adhesive, on the ability of the adhesive to provide CA 0223~03~ 1998-0~-07 suffident adhesion to a surface without being too aggressive or becol";,lg perllld"antly adhered. For example the data shows that: as the shear storage modulus increases the ability of the adhesive to release increases;
and as the percent area covered by the adhesive pattern increases the adhesion level of the adhesive increases.
The adhesives in the examples are ~ ~nlative of those that can be used in the different aspects of the present invenUon to provide the desired l~"~ a ~ securement of the dl,sor,~e,)l article to the body of the wearer without causing irritaUon or red marking. Whereas, the adhesives in the comparative examples aro r~pieser,tdUve of those that are either too aggressive or not aggressive enough for the present invention.
Accordingly, the present invenUon advantageously provides an a,,sor,Jenl arUcle which has i" ,~,rcv~ d fastenability fit and pe~fi,1ll~l,ce. In one aspect the present invention includes the use of an adhesive on the bodyf~ing surface of an dlJso"Je"t arUcle to improve the fastening e~yono",ics to allow the care-giver to proper,y position and fasten the abso"6sllt arUcle about the waist of a wearer on the first try. The use of an 15 adhesive to at least t~",~or~,i!y secure the front portion of the arUcle to the wearer during ~ttacl""erlt allows the care-giver to use both hands simultaneously to fasten the arUcle about the wearer. As such, the present invenUon can provide an a6sol6elll arUcle which has reduced leakage because it is easier to posiUon the artic,e on the wearer to obtain the opUmum fit.

2 0 Moreover, in another aspect, the present invention advantageously provides an ~6so, 6ant arUcle which has adhesive on it s bodyfacing surface at the leg and waist opening regions to provide a seal to further reduce the leakage of bodily exudates. In sUII another aspect, the present invenUon provides an a6~, 6el ll arUcle which has adhesive on its bodyf~ing surface in the waist regions of the arUcle to reduce the tendency of the end edges of the arUc,e to rollover or droop and sag. Accordingly, the present invenUon provides an d6sol6~1ll 2 5 arUcle which is easier to fasten about the wearer and has an improved fit reduced leakage and i"~,aased consumer ac~plance.

While the invenUon has ~een described in detail with respect to specific aspects thereof, it will ~e appreciated that thoss skilled in the art, upon attaining an IJ"der~td"d;ng of the F~nego; ~g may readily conceive of 3 0 alteraUons to variaUons of, and equivalents to these aspects. Accordingly the scope of the present invenUon should be A-~ss~ed as that of the appended claims and any equivalents thereto.

Claims

What is claimed is:

1. An absorbent article which includes a front portion, a rear portion, a crotch portion which extends between and connects said front portion to said rear portion, a pair of side edges and a pair of longitudinal end edges, said absorbent article comprising:
a) an outer cover;
b) a bodyside liner which is superposed on said outer cover and which includes a bodyfacing surface;
c) an absorbent core which is located between said outer cover and said bodyside liner; and d) an adhesive which is located on said bodyfacing surface of said bodyside liner wherein said adhesive is configured to provide a peel strength of no more than about 300 grams per centimeter of width.

2. The absorbent article according to claim 1 wherein said adhesive is configured to provide a peel strength of no more than about 240 grams per centimeter of width.

3. The absorbent article according to claim 1 wherein said adhesive defines a shear storage modulus of from about 1.0 X 10 3 to about 6.0 X 10 6 dynes per square centimeter as measured at a temperature of about 20°C
and at a frequency of about 10 radians per second.

4. The absorbent article according to claim 1 wherein said adhesive defines a shear storage modulus of from about 4.0 X 10 4 to about 6.0 X 10 6 dynes per square centimeter as measured at a temperature of about 20°C
and at a frequency of about 10 radians per second.

5. The absorbent article according to claim 1 wherein said adhesive is configured to provide an initial shear strength of no more than about 600 grams per square centimeter.

6. The absorbent article according to claim 1 wherein said adhesive is configured to provide an initial shear strength of from about 0 to about 530 grams per square centimeter.

7. The absorbent article according to claim 1 wherein said adhesive is configured to provide an aged shear strength of no more than about 500 grams per square centimeter.

8. The absorbent article according to claim 1 wherein said adhesive is configured to provide a cyclic shear value of no more than about 100 cycles.

9. The absorbent article according to claim 1 wherein said adhesive is configured to provide a cyclic shear value of from about 0 to. about 50 cycles.

10. The absorbent article according to claim 1 wherein said adhesive is located on said bodyside liner adjacent at least a portion of one of said longitudinal end edges of said absorbed article.

11. The absorbent article according to claim 1 wherein said adhesive is located on said bodyside liner adjacent at least a portion of both of said longitudinal end edges of said absorbent article.

12. The absorbent article according to claim 1 wherein said adhesive is located on said bodyside liner adjacent at least a portion of both of said side edges of said absorbent article.

13. The absorbent article according to claim 1 wherein said bodyfacing surface of said bodyside liner defines a surface area and said adhesive is located on less than about 25 percent of said surface area.

14. The absorbent article according to claim 1 wherein said adhesive defines an adhesive area which is from about 0.1 to about 10 square centimeters.

15. The absorbent article according to claim 1 wherein said adhesive is arranged in a pattern of dots and wherein each of said dots defines an area of from about 0.04 to about 9 square centimeters.

16. The absorbent article according to claim 1 wherein said adhesive defines a thickness of from about 0.001 to about 1 millimeter.

17. An absorbent article which includes a front portion a rear portion, a crotch portion which extends between and connects said front portion to said rear portion, a pair of side edges and a pair of longitudinal end edges, said absorbent article comprising:
a) an outer cover;
b) a bodyside liner which is superposed on said outer cover and which includes a bodyfacing surface;
c) an absorbent core which is located between said outer cover and said bodyside liner; and d) an adhesive which is located on said bodyfacing surface of said bodyside liner and which is configured to at least temporarily secure said absorbent article to a wearer's body wherein said adhesive is configured to provide a peel strength of no more than about 300 grams per centimeter of width, an aged shear strength of no more than about 500 15 grams per square centimeter and a cyclic shear value of no more than about 50 cycles.

18. The absorbent article according to claim 17 wherein said adhesive is located on said bodyfacing surface of said bodyside liner in said front portion of said absorbent article and wherein said adhesive is configured to at least temporarily secure said front portion of said absorbent article to said wearer's body to assist in positioning and fastening said absorbent article about said wearers body.

19. A diaper which includes a front portion a rear portion, a crotch portion which extends between and connects said front portion to said rear portion, a pair of side edges and a pair of longitudinal end edges, said diaper comprising:
a) an outer cover;
b) a bodyside liner which is superposed on said outer cover and which includes a bodyfacing surface;
c) an absorbent core which is located between said outer cover and said bodyside liner; and d) an adhesive which is located on said bodyfacing surface of said bodyside liner adjacent at least a portion of said longitudinal end edge of said diaper in said front portion of said diaper and which is configured to at least temporarily secure said front portion of said diaper to a wearer's body to assist in positioning and fastening said diaper about said wearer's body.

20. The diaper according to claim 19 wherein said adhesive includes a strip of adhesive which extends laterally along said longitudinal end edge of said diaper for a length of from about 1 to about 35 centimeters.

21. The diaper according to claim 20 wherein said strip of adhesive defines a width of from about 0.5 to about 5 centimeters.

22. The diaper according to claim 19 wherein said adhesive is located on said bodyside liner in a pattern of dots and wherein each of said dots defines an area of from about 0.04 to about 9 square centimeters.

23. The diaper according to claim 19 wherein said adhesive defines an adhesive area which is from about 0.1 to about 10 square centimeters.

24. The diaper according to claim 19 wherein said adhesive defines a shear storage modulus of at least about 1.0 X 103 dynes per square centimeter as measured at a temperature of about 20°C and at a frequency of about 10 radians per second

25. The diaper according to claim 19 wherein said adhesive is configured to provide a peel strength of no more than about 300 grams per centimeter of width and an initial shear strength of no more than about 600 grams per square centimeter.

26. The diaper according to claim 19 wherein said adhesive is configured to provide an aged shear strength of no more than about 500 grams per square centimeter.

27. The diaper according to claim 19 wherein said adhesive is configured to provide a cyclic shear value of no more than 100 cycles.