Patent Description:
The present invention relates generally to absorbent articles and, more particularly, to absorbent articles having an absorbent core configured to lift away from a chassis of the article to define a containment zone.

Absorbent products can include, for example, baby diapers, training pants, and adult incontinence briefs and underwear, all of which may be made in disposable forms. "Disposable" refers to articles that are designed to be discarded after a limited use rather than being laundered or otherwise restored for reuse. Disposable absorbent products have met with widespread acceptance in the marketplace for a variety of applications, including infant and adult incontinence care, in view of the manner in which such products can provide effective and convenient liquid absorption and retention while maintaining the comfort of the wearer. Such disposable absorbent articles often include a topsheet that is configured to be closest to the wearer during use, a liquid-impermeable backsheet or outer cover, and an absorbent core between the topsheet and the backsheet. In some instances, such disposable absorbent articles also include an acquisition-distribution layer (ADL) disposed between the topsheet and the absorbent core. Elasticated standing leg cuffs and leg gathers are also often used in such articles to provide improved fit and reduced leakage around a wearer's legs, relative to articles without such cuffs or gathers.

<CIT> discloses an absorbent sheet to be used, i. , in a diaper and suggests to provide "a leakage prevention wall. formed by an absorbent body" to avoid the costs for a leakage preventing elas-tic member (para.

<CIT> relates to the field of absorbent laminates and multi-layer and suggests folded absorbent cores which define a longitudinally extending central channel to enhance liquid transport to lower layers of the folded core.

<CIT> as well suggests a disposable absorbent article with an absorbent core positioned on the upper surface of a chassis.

<CIT> shows in FIG. <NUM> a folded structure having a top sheet <NUM>, a back sheet <NUM> in between of a "multilayer construction <NUM>" having a folded layer with blocks attached to it.

<CIT> suggests an absorbent articles with a first leakage preventing sheet on top of which is a non-folded absorbent core. A second leakage preventing sheet is located on the planar absorbent core.

<CIT> discloses certain prior art examples of diapers, and <CIT> and <CIT> disclose certain prior art examples of disposable incontinence garments or training pants.

One example of such a disposable absorbent article is shown in <FIG>, which depict a lower plan view and a perspective view, respectively, of training pant <NUM>. Training pant <NUM> includes a chassis <NUM> having a front waist portion <NUM>, an opposing rear waist portion <NUM>, and a crotch portion <NUM> extending longitudinally between front and rear waist portions <NUM>, <NUM>. Chassis <NUM> further includes a backsheet <NUM> defining an outer surface and configured to face away from a wearer during use of the diaper, and topsheet <NUM> defining an opposing body facing surface and configured to face a wearer during use of the diaper.

As shown in <FIG>, training pant <NUM> further includes a pair of front elastic side panels <NUM> and a pair of rear elastic side panels <NUM> configured to couple rear waist portion <NUM> to front waist portion <NUM> in a well-known configuration in which a left side <NUM> of the chassis defines a first leg opening <NUM> for a wearer's left leg, and in which a right side <NUM> of the chassis defines a second leg opening <NUM> for the wearer's right leg. In the depicted configuration, each of side panels <NUM>, <NUM> includes a connection portion <NUM> configured to be coupled to a connection portion <NUM> of another of side panels <NUM>, <NUM>. Specifically, connection portion <NUM> of the left one of front side panels <NUM> is configure to be coupled to connection portion <NUM> of the left one of rear side panels <NUM>, and connection portion <NUM> of the right one of front side panels <NUM> is configure to be coupled to connection portion <NUM> of the right one of rear side panels <NUM>, such that the waist portions <NUM>, <NUM> and side panels, <NUM>, <NUM> cooperate to define a waist opening <NUM> as shown in <FIG>. Connection portions <NUM> of the respective side panels can be permanently coupled together to define a tear-able side seam <NUM>, such as, for example, via adhesive, ultrasonic, or thermal bonds. Such tear-able side seams generally cannot be refastened, and thereby render an article unusable once opened. Alternatively, connection portions <NUM> of the respective side panels can be removably coupled to define a refastenable or adjustable side seam, such as, for example, via hook-and-loop fasteners. Hook and loop fasteners are mechanical fasteners that include hooks, such as in a hook fastener portion, that are configured to engage loops in a loop fastener portion or in fibers of a sheet of fabric; for example, a nonwoven or woven fabric with fibers that define open or loop-like regions into which the hooks can extend and engage. Examples of such hook and loop fasteners may be referred to as VELCRO.

As is known in the art, training pant <NUM> can include one or more elastic elements coupled to the chassis such that the one or more elastic elements resist expansion of a circumference of the first leg opening and resist expansion of a circumference of the second leg opening. For example, as shown in <FIG>, the depicted embodiment of chassis <NUM> includes a first elastic region <NUM> along right side <NUM>, and a second elastic region <NUM> along left side <NUM>. In some configurations, elastic regions <NUM>, <NUM> can each be defined by one or more elastic strands, which may be referred to in the art as "leg elastics," coupled to the chassis, for example laminated between the topsheet or an additional leg cuff layer and the backsheet. In other configurations, elastic regions <NUM>, <NUM> can each be defined by an elastic film coupled to the chassis, for example laminated between the topsheet and the backsheet. In configurations in which elastic regions <NUM>, <NUM> are defined by elastic film, the regions can be defined by separate pieces of elastic film or by separate regions of a single piece of elastic film. As shown in <FIG>, elastic regions <NUM>, <NUM> may be parallel to and/or extend along a majority of a length of each of sides <NUM> and <NUM>, provided that the elastic regions are configured to provide a biasing force that resists expansion of the leg openings when the chassis is in its closed configuration and tends to contract the leg opening around a wearer's leg, as shown in <FIG>. Contraction of the leg opening to conform to the wearer's leg is desired for good containment of urine and feces in an absorbent product.

Another example of such a disposable absorbent article is shown in <FIG> and <FIG>, which depict lower plan views of a baby diaper <NUM>. Diaper <NUM> includes a chassis <NUM> having a front waist portion <NUM>, an opposing rear waist portion <NUM>, and a crotch portion <NUM> extending longitudinally between front and rear waist portions <NUM>, <NUM>. Chassis <NUM> further includes an outer surface <NUM> configured to face away from a wearer during use of the diaper, and an opposing body facing surface <NUM> configured to face a wearer during use of the diaper. In the view of <FIG>, a dashed leader extends from the body facing surface to reference numeral <NUM> because body facing surface <NUM> is opposite outer surface <NUM> and therefore not visible in the view of <FIG>.

As shown in <FIG>, diaper <NUM> further includes a pair of closure members <NUM> configured to couple rear waist portion <NUM> to front waist portion <NUM> in a well-known configuration in which a left side <NUM> of the chassis defines a first leg opening for a wearer's left leg, and in which a right side <NUM> of the chassis defines a second leg opening for the wearer's right leg, similar in some respects to what is shown in <FIG> for training pant <NUM>. In the depicted configuration, the closure members include a pair of back ears or back ear panels <NUM> each having a first end <NUM> bonded to rear waist portion <NUM> of chassis <NUM>, and a second end <NUM> shown extending away from rear waist portion <NUM>. "Bonded" refers to the joining, adhering, connecting, attaching, or the like, of two elements via adhesive(s), ultrasonic bond(s), and/or thermal bond(s). Two elements will be considered to be bonded together when they are bonded directly to one another or indirectly to one another, such as when each is directly bonded to intermediate elements.

Each closure member <NUM> further includes a fastener tab <NUM> with a first end <NUM> bonded to back ear <NUM>, a second end <NUM> shown extending laterally outward from back ear <NUM>, and a fastener portion <NUM> coupled to the fastener tab. Back ears <NUM> are each formed of a stretchable elastic material, such as a nonwoven laminate, that permits adjustments in the width and tension of back ears <NUM> to vary the form and fit of diaper <NUM> when worn by a user.

Fastener tabs <NUM> are formed of an inelastic nonwoven material and carry fastener portions <NUM>. Fastener portions <NUM> include strips of hook material configured to interact with a corresponding loop material in the well-known hook-and-loop fastener arrangement. Connection of closure members <NUM> to front waist portion <NUM> is facilitated by a landing zone <NUM> configured to be engaged by fastener portions <NUM>. In this embodiment, landing zone <NUM> is defined by an anchoring member that includes a strip of loop material bonded to front waist portion <NUM> of chassis <NUM>, for example, to the backsheet, and configured to be engaged by the hook material of fastener portions <NUM>.

As shown in <FIG>, diaper <NUM> also includes a pair of front ears <NUM> extending from opposite sides <NUM>, <NUM> of chassis <NUM> with each of front ears <NUM> each having a first end <NUM> bonded to front waist portion <NUM> of chassis <NUM>, and a second end <NUM> shown extending away from a respective side of front waist portion <NUM>. Front ears <NUM> are each formed of a relatively soft nonwoven material and are each configured to be overlapped by the corresponding fastener tab <NUM> and/or back ear <NUM> to prevent the edges of fastener tab <NUM> from pinching, rubbing, or otherwise irritating a user's skin in use when fastening portions <NUM> are engaged with landing zone <NUM> to couple rear waist portion <NUM> to front waist portion <NUM>. In some embodiments, front ears <NUM> include loop fastener portions or a fabric that is configured to be engaged by hook fastener portions such that fastener portions 172a can engage front ears <NUM>.

Outer surface <NUM> is defined by a liquid-impermeable backsheet or cover <NUM> that defines outer surface <NUM>, and a liquid-permeable topsheet <NUM> that defines body facing surface <NUM> and is configured to be closest to the wearer during use. "Liquid impermeable," when used in describing a layer or multi-layer laminate, means that a liquid, such as urine, will not pass through the layer or laminate, under ordinary use conditions, in a direction generally perpendicular to the plane of the layer or laminate at the point of liquid contact. "Lamination" is the technique of manufacturing a material in multiple layers, so that the composite material has benefits of all the combined layers, such as, for example, improved mechanical strength or durability, improved stability, lower permeability to water, and/or other properties. A laminate includes two or more layers of material(s) that are permanently assembled by heat, pressure, ultrasonic welding, or adhesives.

As shown in <FIG>, the depicted embodiment include an absorbent core <NUM> disposed between topsheet <NUM> and backsheet <NUM>. An "absorbent core" is a structure typically disposed between a topsheet and backsheet of an absorbent article and containing materials like SAP and/or cellulosic fibers that are configured to absorb liquid in the absorbent article.

As shown in <FIG>, diaper <NUM> also includes an acquisition-distribution layer (ADL) <NUM> disposed between the topsheet and the absorbent core. "Layer" when used in the singular can be a single element or a plurality of elements. For example, a plurality of sheets may together define a single layer, such as, for example, a layer with a particular function to which the sheets of the layer contribute.

As is known in the art, diaper <NUM> can include one or more elastic elements coupled to the chassis such that the one or more elastic elements resist expansion of a circumference of the first leg opening and resist expansion of a circumference of the second leg opening. For example, as shown in <FIG>, the depicted configuration of chassis <NUM> includes a first elastic region <NUM> along first side <NUM>, and a second elastic region <NUM> along second side <NUM>. In some configurations, elastic regions <NUM> can each be defined by one or more elastic strands, which may be referred to in the art as "leg elastics," coupled to the chassis, for example laminated between the topsheet (or an additional leg cuff layer) and the backsheet. In other configurations, elastic regions <NUM> can each be defined by an elastic film coupled to the chassis, for example laminated between the topsheet (or an additional leg cuff layer) and the backsheet. In configurations in which elastic regions <NUM> are defined by elastic film, the regions can be defined by separate pieces of elastic film or by separate regions of a single piece of elastic film. As shown in <FIG>, elastic regions <NUM> may be parallel to and/or extend along a majority of a length of each of sides <NUM> and <NUM>, provided that the elastic regions are configured to provide a biasing force that resists expansion of the leg openings when the chassis is in its closed configuration.

As shown in <FIG>, chassis <NUM> has an overall relaxed length <NUM>.

Diaper <NUM> of <FIG> and <FIG> is typically packaged and sold in a folded, and unfastened configuration in which chassis <NUM> is folded in half such that rear waist portion <NUM> overlaps front waist portion <NUM>, but fastener portions <NUM> do not engage landing zone <NUM>. While diaper <NUM> is described as a baby diaper, diaper <NUM> can also comprise an adult incontinence brief or training pant.

Conventional absorbent articles (e.g., training pant <NUM> and diaper <NUM>) often fail to provide adequate containment of liquids and/or feces. Prior designs sometimes incorporate leg cuffs on either side of a flat absorbent core to mitigate leakage. Such leg cuffs may not have sufficient hydrostatic head to repel excess liquids and/or feces that are not yet absorbed by the flat absorbent core. Liquids and/or feces can also escape by breaking the seal between the leg cuff and a wearer's leg. As a result, liquids and/or feces may leak from the article and cause discomfort for a wearer. There accordingly is a need in the art for absorbent articles that have improved liquid and/or feces containment.

The present invention relates to an absorbent article defined by the subject-matter of claim <NUM>.

The present absorbent articles address the need for improved liquid and/or feces containment by incorporating an absorbent core that can define a leakage-mitigating containment zone. The present cores can comprise a laminate longitudinally folded such that each of first and second longitudinally-extending edge regions of the core includes one or more folded laminate layers disposed on a lower laminate layer. At least a portion of the core in each of the edge regions is not bonded to a chassis and thus can lift away from the chassis to define the containment zone. The lifted portions provide an absorbent barrier that impedes the escape of liquid and/or feces, thereby eliminating the need for leg cuffs constructed from high hydrostatic head materials. Liquids and/or feces that escape the containment zone can be absorbed from underneath the lifted portions of the core to further mitigate leakage. Such lifting can be facilitated by cuffs that are bonded to at least one of the folded layers and configured to urge the free portions of the core away from the chassis. The cuffs can also at least partially unfold the laminate to increase the volume of the containment zone.

The articles comprise a chassis having opposing front and rear portions and a crotch portion extending longitudinally between the front a rear portions. In some articles, the chassis is configured to define a wearable configuration. In the articles, the crotch portion is configured to conform about at least one of a wearer's groin area, perineum, and rear when the chassis is in a wearable configuration. In some articles, a first end of the front portion is configured to be coupled to a first end of the rear portion and a second end of the front portion is configured to be coupled to a second send of the rear portion to define the wearable configuration. In such articles, the front and rear portions cooperate to encircle and define a waist opening, a left side of the chassis defines a first leg opening, and a right side of the chassis defines a second leg opening when the chassis is in the wearable configuration.

The articles have an absorbent core coupled to the chassis. The absorbent core extends longitudinally along the crotch portion and comprises a laminate. The laminate includes two or more substrate laminae and one or more absorbent laminae. Each of the absorbent lamina(e) comprises superabsorbent polymer (SAP). In some articles, the SAP of each of the absorbent lamina(e) has a basis weight between <NUM> and <NUM> grams per square meter (gsm) and, optionally, has a centrifuge retention capacity between <NUM> and <NUM> grams per gram (g/g). In some articles, the SAP of each of the absorbent lamina(e) comprises at least <NUM>%, by weight, SAP. A first one of the absorbent lamina(e) is disposed between first and second ones of the substrate laminae. The first substrate lamina, in some embodiments, comprises tissue and, optionally, the second substrate lamina comprises a nonwoven. Some articles comprise three or more substrate laminae and two or more absorbent laminae, where a second one of the absorbent laminae is disposed between the second substrate lamina and a third one of the substrate laminae.

In the articles, the laminate is longitudinally folded such that the absorbent core includes a lower layer of the laminate and, within each of first and second longitudinally extending edge regions, one or more folded layers. The lower layer spans a lateral width of the absorbent core and each of the edge regions spans less than <NUM>% , and optionally at least <NUM>%, of the width of the absorbent core. In some articles, the one or more folded layers in each of the first and second edge regions comprise two or more folded layers. In some of such articles, for each of the first and second regions, a first one of the folded layers is bonded to a second one of the folded layers, optionally with an adhesive. In some articles, the laminate is folded such that, for each of the first and second edge regions, one of the folded layers extends inwardly from a fold of the laminate to an end of the laminate such that the end is disposed closer to the other of the edge regions than is the fold and, optionally, the folded layer is disposed below at least one other of the folded layers. In some articles, the laminate is folded such that, for the lower layer, the second substrate lamina is configured to be disposed closer to a wearer than is the first substrate lamina when the absorbent article is worn.

In the articles, a center region of the lower layer is bonded to the crotch portion of the chassis. The center region spans a lateral distance smaller than the width of the absorbent core such that at least a portion of the absorbent core in each of the edge regions is configured to lift away from the chassis when the chassis is in the wearable configuration. In some articles, a lowermost one of the folded layer(s) has and extends laterally between first and second portions. In some of such articles, the first portion is disposed closer to the other of the edge regions than is the second portion and, in some articles, the first portion is configured to be disposed on the lower layer when the chassis is in the wearable configuration.

Some articles have first and second longitudinally-extending cuffs. In some articles, each of the cuffs has a first portion coupled to the crotch portion. In some articles, each of the cuffs has a second portion bonded to at least one of the folded layer(s) of a respective one of the first and second edge regions. In some articles, for each of the cuffs, the second portion is configured to lift away from the chassis when the chassis is in the wearable configuration such that the cuff urges at least a portion of the absorbent core away from the chassis. In some articles, each of the cuffs is bonded to an uppermost one of the folded layer(s) of a respective one of the first and second end regions and, optionally, is not bonded to the chassis. In some of such articles, for each of the cuffs, the cuff is bonded to the uppermost one of the folded layer(s) such that a first side is disposed closer to the other of the edge regions than is a second side of the cuff. In some of such articles, for each of the cuffs, the second side of the cuff is configured to lift away from the chassis when the chassis is in the wearable configuration such that the second side is further from the chassis than is the first side and the cuff urges at least a portion of the absorbent core away from the chassis.

In some articles, the absorbent core has first and second ends and extends longitudinally between the first and second ends. Some of such articles have, for each of the first and second ends, an end cap that is coupled to the chassis and extends laterally across the end.

Some articles have a longitudinally-extending insert coupled to the laminate. In some of such articles, for each of the first and second edge regions, a portion of the insert is disposed above the lower layer and/or below at least one of the folded layer(s). In some articles, the insert comprises fluff and SAP and, additionally or alternatively, a through-air bonded polymer nonwoven.

The term "coupled" is defined as connected, although not necessarily directly, and not necessarily mechanically; two items that are "coupled" may be unitary with each other. The terms "a" and "an" are defined as one or more unless this disclosure explicitly requires otherwise. The term "substantially" is defined as largely but not necessarily wholly what is specified - and includes what is specified; e.g., substantially <NUM> degrees includes <NUM> degrees and substantially parallel includes parallel - as understood by a person of ordinary skill in the art. In any disclosed embodiment, the term "substantially" may be substituted with "within [a percentage] of" what is specified, where the percentage includes <NUM>, <NUM>, <NUM>, and <NUM> percent.

The terms "comprise" and any form thereof such as "comprises" and "comprising," "have" and any form thereof such as "has" and "having," and "include" and any form thereof such as "includes" and "including" are open-ended linking verbs. As a result, an apparatus that "comprises," "has," or "includes" one or more elements possesses those one or more elements, but is not limited to possessing only those elements. Likewise, a method that "comprises," "has," or "includes" one or more steps possesses those one or more steps, but is not limited to possessing only those one or more steps.

Any embodiment of any of the apparatuses, systems, and methods can consist of or consist essentially of - rather than comprise/include/have - any of the described steps, elements, and/or features. Thus, in any of the claims, the term "consisting of" or "consisting essentially of" can be substituted for any of the open-ended linking verbs recited above, in order to change the scope of a given claim from what it would otherwise be using the open-ended linking verb.

The feature or features of one embodiment may be applied to other embodiments, even though not described or illustrated, unless expressly prohibited by this disclosure or the nature of the embodiments.

Some details associated with the embodiments described above and others are described below.

The following drawings illustrate by way of example and not limitation. For the sake of brevity and clarity, every feature of a given structure is not always labeled in every figure in which that structure appears. Identical reference numbers do not necessarily indicate an identical structure. Rather, the same reference number may be used to indicate a similar feature or a feature with similar functionality, as may non-identical reference numbers. Views in the figures are drawn to scale, unless otherwise noted, meaning the sizes of the depicted elements are accurate relative to each other for at least the embodiment in the view.

Referring to <FIG>, shown is an embodiment 300a of the present absorbent articles. Article 300a can be a baby diaper, training pant, adult incontinence brief or underwear, bladder control pad, feminine hygiene pad, or the like, and comprises a chassis <NUM>. Chassis <NUM> can have a crotch portion <NUM> that extends longitudinally between a front portion <NUM> and a rear portion <NUM>. Chassis <NUM> can define an extended configuration (<FIG>) (e.g., an open configuration if the article is a diaper, training pant, incontinence brief, and the like) and a wearable configuration (e.g., a closed configuration if the article is a diaper, training pant, incontinence brief, and the like) in which crotch portion <NUM> is configured to conform about the groin area, perineum, and/or rear of a wearer. For example, front portion <NUM> and rear portion <NUM> can each include ears and/or fasteners such that the front portion has first and second ends 320a and 320b configured to be coupled to first and second ends 324a and 324b, respectively, of the rear portion. When first ends 320a, 324a and second ends 320b, 324b are so coupled, chassis <NUM> can defined a wearable configuration in which front and rear portions <NUM> and <NUM> can cooperate to encircle and define a waist opening, a left side of chassis <NUM> can define a first leg opening, and a second side of the chassis can define a second leg opening.

Chassis <NUM> can have a backsheet configured to face away from a wearer and, optionally, a topsheet configured to face the wearer during use of article 300a. The present backsheets are typically liquid-impermeable and can include, for example, an inner liquid-impermeable film and an outer nonwoven backsheet that can be a nonwoven fabric. A "film" is a membrane-like layer of material formed of one or more polymers, which does not have a form consisting predominately of a web-like structure of fibers and/or other fibers. In some articles, the backsheet can be breathable, for example, an inner liquid-impermeable film of the backsheet can comprise a breathable film. The terms "breathable," "breathable film," "breathable laminate" or "breathable outer cover material" or "breathable backsheet" refers to a film, laminate, or outer cover material having a water vapor transmission rate ("WVTR") of at least about <NUM> grams/m<NUM>/<NUM> hours. Breathable materials typically rely on molecular diffusion of vapor, and are substantially liquid impermeable. "Nonwoven" fabrics, according to an INDA definition, are broadly defined as sheet or web structures bonded together by entangling fiber or filaments, and by perforating films, mechanically, thermally, or chemically. They are flat, porous sheets that are made directly from separate fibers or from molten plastic or plastic film. They are not made by weaving or knitting and do not require converting the fibers to yarn. The basis weight of nonwoven fabrics is usually expressed as gsm or grams per square meter. "Nonwoven backsheet" is a backing substrate layer in the outer cover; a nonwoven backsheet is most often a nonwoven layer facing away from the wearer.

Article 300a can include an absorbent core <NUM> that extends longitudinally between its opposing first and second ends 392a and 392b. A longitudinal length between first and second ends 392a and 392b can be, for example, greater than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more millimeters (mm) (e.g., between <NUM> and <NUM>). Core <NUM> is coupled to crotch portion <NUM>, and can, but need not, extend longitudinally along the entire length of the crotch portion. For example, core <NUM> can have a longitudinal length at least, or between any two of, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, or <NUM>% smaller than a length of crotch portion <NUM>, and optionally can be positioned closer to front portion <NUM> than to rear portion <NUM>. Core <NUM> can comprise any material or combination of materials suitable for absorbing liquids, such as, for example, laminate <NUM>. Laminate <NUM> can have one or more substrate laminae (e.g., 336a and 336b) and one or more absorbent laminae (e.g., 340a).

Each of the absorbent lamina(e) comprises superabsorbent polymer (SAP) particles. "Superabsorbent" or "superabsorbent material" or "SAP" refers to a water-swellable, water-insoluble organic or inorganic material capable, under the most favorable conditions, of absorbing at least about <NUM> times its weight in an aqueous solution containing <NUM> weight percent sodium chloride and, more desirably, at least about <NUM> times its weight in an aqueous solution containing <NUM> weight percent sodium chloride and, even more desirably, at least about <NUM> times its weight in an aqueous solution containing <NUM> weight percent sodium chloride. Exemplary superabsorbent polymer material suitable for use in core <NUM> can comprise any superabsorbent polymer particles known from superabsorbent literature, for example such as described in <NPL>. For example, the SAP particles may be spherical, spherical-like or irregularly shaped particles, such as sausage shaped particles, or ellipsoid shaped particles of the kind typically obtained from inverse phase suspension polymerizations. The SAP particles can also be optionally agglomerated at least to some extent to form larger irregular particles. In some embodiments, the SAP particles can also have a surface modification, such as a partial or full surface coating, for example to increase the hydrophilicity of the SAP particles.

The SAP materials can be natural, synthetic and modified natural polymers and materials. In addition, the SAP materials can be or include organic compounds such as cross linked polymers. "Cross-linked" is a commonly understood term and refers to any approach for effectively rendering normally water-soluble materials substantially water insoluble, but swellable. Such polymers can include, for example, carboxymethylcellulose, alkali metal salts of polyacrylic acids, polyacrylamides, polyvinyl ethers, hydroxypropyl cellulose, polyvinyl morpholinone, polymers and copolymers of vinyl sulfonic acid, polyacrylates, polyacrylamides, polyvinyl pyridine and the like. Other suitable polymers include hydrolyzed acrylonitrile grafted starch, acrylic acid grafted starch, and isobutylene maleic anhydride copolymers, and mixtures thereof. Organic high-absorbency materials can include natural materials, such as agar, pectin, guar gum and peat moss. In addition to organic materials, superabsorbent materials may also include inorganic materials, such as absorbent clays and silica gels. Suitable examples of SAP include T9030, T9600, T9900, and Saviva polymers from BASF Corporation in Charlotte, North Carolina; and W211, W112A, W125, S125D, QX-W1482, QX-W1486, QX-W1504, and QX-W1505 from Nippon Shokubai Co. in Houston, Texas; and AQUA KEEP SA50 II, SA55SX II, SA60N II, SA65S, HP500E, HP600, and HP 700E from Sumitomo Seika Chemicals Co. in Osaka, Japan.

In some articles, the SAP can have a centrifuge retention capacity of <NUM>-<NUM> grams per gram (g/g), for example <NUM>-<NUM>/g or <NUM>-<NUM>/g, optionally between <NUM> and <NUM>/g, or optionally between <NUM> and <NUM>/g. The SAP can have particle size distribution (PSD) with most or substantially all particles having a diameter between <NUM> and <NUM>. Preferably, all or substantially all of the SAP particles in at least one of the absorbent lamina(e) have a diameter less than or equal to <NUM> micrometers (µm) to reduce the roughness of the absorbent lamina. For example, ones of the SAP particles in absorbent lamina 340a having a diameter greater than or equal to <NUM> can account for less than <NUM>% (e.g., less than <NUM>% or less than <NUM>%) of the mass of the SAP particles in the lamina. An illustrative SAP suitable for absorbent lamina 340a is HP500E from Sumitomo Seika Chemicals Co. in Osaka, Japan. As used herein, particle diameter refers to the equivalent diameter of the particle if the particle is modelled as a sphere.

In some embodiments, the SAP material of the absorbent lamina(e) can be disposed within a matrix of adhesive material. Suitable adhesive material can include, for example, a thermoplastic hot-melt adhesive composition or a pressure-sensitive thermoplastic adhesive composition. For example, absorbent lamina 340a can comprise at least <NUM>% (e.g., greater than <NUM>% or <NUM>%), by weight, SAP and less than or equal to <NUM>% (e.g., less than <NUM>% or <NUM>%), by weight, adhesive. To illustrate, the SAP of absorbent lamina 340a can have a basis weight of at least <NUM> grams per square meter (gsm), such as, for example, greater than or equal to or between any two of <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM> or more gsm (e.g., between <NUM> and <NUM> gsm).

Each of the substrate lamina(e) can be constructed from nonwoven material and/or tissue. Suitable nonwoven materials can include, for example, spunbond, spunlace, or carded webs of one or more polymers, including polypropylene, polyethylene, nylon, polyester, and blends of these materials. When constructed from a nonwoven, a substrate lamina can have a basis weight of at least <NUM> gsm, such as, for example, a basis weight greater than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more gsm (e.g., between <NUM> and <NUM> gsm, or <NUM> gsm, or between <NUM> and <NUM> gsm). Suitable tissues can include, for example, porous tissues, creped tissues, and standard tissues. When constructed from tissue, a substrate lamina can have a basis weight of at least <NUM> gsm, such as, for example, a basis weight greater than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more gsm.

The substrate lamina(e) can facilitate liquid acquisition and distribution throughout core <NUM>. SAP in the absorbent lamina(e) swells when it absorbs liquid, which can impede liquid distribution throughout core <NUM> (referred to as "gel blocking"). Tissue and/or nonwoven substrate lamina(e) can mitigate gel blocking by promoting the acquisition and distribution of liquid throughout the absorbent lamina(e). To illustrate, laminate <NUM> can have a first substrate lamina 336a constructed from tissue, a second substrate lamina 336b constructed from a nonwoven, and an absorbent lamina 340a comprising at least <NUM>% SAP by weight. Absorbent lamina 340a can be in contact with and disposed between first substrate lamina 336a and second substrate lamina 336b (<FIG>). First substrate lamina 336a, when constructed from tissue, can provide a capillary network through which liquid is spread and distributed to absorbent lamina 340a, thereby mitigating gel blocking. Second substrate lamina 336b, when constructed from a nonwoven, can absorb and distribute rapid insults of liquid to reduce leakage, and can promote comfort. For example, laminate <NUM> can be coupled to chassis <NUM> such that, at least for a portion of the laminate, second substrate lamina 336b is disposed closer to a wearer than are the other lamina(e) when article 300a is worn. Second substrate lamina 336b can thereby function as a topsheet to transfer liquid to absorbent lamina 340a while remaining relatively dry and soft to the touch. Article 300a thus can omit a conventional topsheet that would otherwise cover core <NUM>. In some embodiments, however, core <NUM> can be disposed between a backsheet and a topsheet of chassis <NUM>.

In other embodiments, laminate <NUM> can have any suitable number of substrate and absorbent laminae arranged in any suitable order, such as, for example, greater than or equal to or between any two of <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more substrate laminae and greater than or equal to or between any two of <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more absorbent laminae. For example, any two adjacent laminae in laminate <NUM> can be the same type of laminae (e.g., both can be substrate laminae or absorbent laminae) or laminae of different types (e.g., one can be one of the substrate lamina(e) and one can be one of the absorbent lamina(e)). By way of illustration, laminate <NUM> can comprise three substrate laminae and two absorbent laminae arranged such that each of the absorbent laminae is disposed between two of the substrate laminae. Providing additional laminae can increase the absorption capacity of laminate <NUM>.

Laminate <NUM> can be folded one or more times such that core <NUM> includes multiple laminate layers, including a lower layer <NUM> and one or more folded layers (e.g., 360a and 360b) disposed on the lower layer within each of first and second longitudinally-extending edge regions 348a and 348b. For example, as shown, core <NUM> includes a folded layer 360a in first edge region 348a and a folded layer 360b in second edge region 348b. Lower layer <NUM> can span lateral width <NUM> of core <NUM>, and folded layers 360a and 360b can each span less than half of width <NUM> such that a gap is disposed between the folded layers. For example, each of edge regions 348a and 348b can have a width (e.g., 352a and 352b, respectively) that spans less than or equal to, or between any two of, <NUM>%, <NUM>%, <NUM>%, <NUM>%, or <NUM>% (e.g., between <NUM>% and <NUM>% or between <NUM>% and <NUM>%) of width <NUM>. To illustrate, width <NUM> of core <NUM> can be greater than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more millimeters (mm) (e.g., between <NUM> and <NUM>) and each of widths 352a and 352b can be less than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or fewer millimeters (mm) (e.g., between <NUM> and <NUM> or between <NUM> and <NUM>).

Core <NUM> is coupled to chassis <NUM> such that the core defines a containment zone <NUM> for liquids and/or feces when article 300a is worn. Lower layer <NUM> has a center region <NUM> coupled to crotch portion <NUM> via a bond <NUM>, which can be, for example, an adhesive, ultrasonic, or thermal bond. Center region <NUM> spans a lateral distance <NUM> that is smaller than width <NUM>, such as, for example, a distance that is smaller than or between any two of <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, or <NUM>% of width <NUM>. To illustrate, distance <NUM> can be less than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or fewer millimeters (mm) (e.g., between <NUM> and <NUM>). Center region <NUM> can, but need not, overlap edge regions 348a and 348b. For example, at least one of the folded layers in each of edge regions 348a and 348b can be partially disposed on lower layer <NUM> within center region <NUM>. Because bond <NUM> spans only part of width <NUM>, at least a portion of core <NUM> within each of edge regions 348a and 348b can be free and lift away from chassis <NUM> towards a wearer when the chassis is in the wearable configuration (<FIG>). The liftable portion(s) of core <NUM> can be configured to lift away from chassis <NUM> when garment 300a is worn even if the portion(s) are not elasticated. As a result, core <NUM> can define a zone <NUM> that promotes liquid and/or feces containment. Liquids and/or feces that escape containment zone <NUM> can be absorbed from underneath the lifted portions of core <NUM>, further mitigating leakage from article 300a.

Edge regions 348a and 348b, by having multiple layers of laminate <NUM>, can have more SAP than the other portions of laminate <NUM>. The additional SAP can both increase the absorption capacity of the edges of laminate <NUM> and facilitate formation of containment zone <NUM> when the SAP in the edge regions swells. And when one of the substrate lamina(e) functions as a topsheet (e.g., when the substrate lamina is a nonwoven), article 300a can omit a conventionally-used topsheet layer that would otherwise impede the expansion and/or unfolding of core <NUM> in use. For example, a nonwoven substrate lamina can be disposed closer to a wearer than are the other lamina(e) when article 300a is worn, at least for lower layer <NUM> and additionally, or alternatively, for an uppermost one of the folded layer(s) in each of edge regions 348a and 348b.

Article 300a can include cuffs <NUM> coupled to at least one of the folded layers to facilitate the lifting of the free portions of core <NUM>. For example, within each of edge regions 348a and 348b, a cuff <NUM> can be coupled to an uppermost one of the folded layer(s) (e.g., 360a or 360b) via a bond <NUM>, such as, for example, an adhesive, ultrasonic, or thermal bond. In other embodiments, however, each of cuffs <NUM> can be bonded to a respective one of the outermost, longitudinally-extending folded edges of core <NUM>. Cuffs <NUM> can be configured to lift away from chassis <NUM> when the chassis is in the wearable configuration and thereby urge the free portions of core <NUM> to unfold away from the chassis as well. For example, as shown, each of cuffs <NUM> has opposing first and second longitudinally-extending sides <NUM> and <NUM> and is bonded to a respective one of folded layers 360a and 360b such that the first side is disposed closer to the other of the folded layers than is the second side. For each of cuffs <NUM>, the cuff can be elastic and/or second side <NUM> can be ruffled such that, when chassis <NUM> is in the wearable configuration, the second side rises (e.g., such that the second side is further from the chassis than is first side <NUM>) and thereby urges at least a portion of core <NUM> away from the chassis. When so bonded, cuffs <NUM> can also at least partially unfold the core to increase the volume of containment zone <NUM>. The free portions of core <NUM> and each of cuffs <NUM>, when lifted, can form a leak-prevention gasket around the legs of a wearer to further mitigate leakage.

Additionally, or alternatively, laminate <NUM> can be riffled such that a plurality of ridges extend longitudinally (e.g., in the machine direction) along the laminate. The ridges can also promote the lifting of the free portions of core <NUM> away from chassis <NUM>.

Article 300a can include end caps <NUM>. Each of end caps <NUM> can be coupled to chassis <NUM>, extend laterally across a respective one of first and seconds ends 392a and 392b of core <NUM>, and, optionally, extend longitudinally to a respective one of the front and rear edges of chassis 300a. End caps <NUM> can inhibit leakage out of ends 392a and 392b while still permitting portions of core <NUM> to lift away from chassis <NUM>.

As shown, cuffs <NUM> are not connected to chassis <NUM>, but can be connected to the chassis in other embodiments. Referring to <FIG>, shown is an article 300b which is substantially similar to article 300a, the primary exception being the configuration of cuffs <NUM>. As shown, each of cuffs <NUM> has first and second portions <NUM> and <NUM>. First portion <NUM> can be coupled to chassis <NUM> (e.g., on crotch portion <NUM>) and second portion <NUM> can be bonded to at least one of the folded layers in a respective one of edge regions 348a and 348b (e.g., to the uppermost folded layer). In this configuration, second side <NUM> (e.g., a ruffled side) of each of cuffs <NUM> can be disposed closer to the other of the edge regions than is first side <NUM>. When chassis <NUM> is in the wearable configuration, second portion <NUM> can lift and thereby urge free portions of core <NUM> away from the chassis to define containment zone <NUM>. For example, each of cuffs <NUM> can lift at least one of the folded layer(s) in each of edge regions 348a and 348b. Cuffs <NUM> of article 300b may lift portions of lower layer <NUM> away from chassis <NUM>, but to a lesser extent than those of article 300a.

Core <NUM> can include any suitable number of folded layers within each of edge regions 348a and 348b, such as, for example, greater than or equal to or between any two of <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more folded layers. For example, referring to <FIG>, shown is an article 300c which is substantially similar to article 300a, the primary exception being that article 300c has four folded layers: two (360a-360c) within first edge region 348a and two (360c-360d) within second edge region 348b. Providing multiple folded layers in each of edge regions 348a and 348b can improve liquid containment and increase the absorption capacity of core <NUM> at least because the additional folded layers can increase the amount of SAP in the edge regions. As a result, containment zone <NUM> can be defined by barriers having a higher absorption capacity such that the containment zone can hold more liquid and/or feces.

Some cores can be folded such that one or more of the folded layer(s) in each of edge regions 348a and 348b form longitudinal dams to improve liquid containment. For example, referring to <FIG>, shown is an article 300d which is substantially similar to article 300a, the primary exception being the folded structure of core <NUM>. As shown, article 300d can have six folded layers: three (360a-360c) within first edge region 348a and three (360d-360f) within second edge region 348b. Laminate <NUM> can be folded such that each of the lowermost folded layers (e.g., 360a and 360e) extends inwardly from a fold of the laminate to an end of the laminate (e.g., 374a and 374b, respectively), the end disposed closer to the other of the edge regions than is the fold. When the free portions of core <NUM> are lifted, folded layers 360a and 360e can remain closer to lower layer <NUM> than are the other folded layers. For example, at least a portion of each of folded layers 360a and 360e can remain disposed on lower layer <NUM> and, when they swell, create longitudinal dams.

In some cores, longitudinal dams can be formed from multiple folded layers. Referring to <FIG>, shown is an article 300e which is substantially similar to article 300a, with the primary exception being the folded structure of core <NUM>. As shown, article 300e can have ten folded layers: five (360a-360e) within first edge region 348a and five (360f-360j) within second edge region 348b. Within each of edge regions 348a and 348b, core <NUM> can have a folded layer (e.g., 360b and <NUM>, respectively) that extends inwardly from a fold of the laminate to an end of the laminate (e.g., 374a and 374b, respectively), the end disposed closer to the other of the edge regions than is the fold. Inwardly-extending folded layers 360b and <NUM> can each be disposed between two other of the folded layers (e.g., folded layer 360b can be layered between folded layers 360a and 360c, and folded layer <NUM> can be layered between folded layers 360f and <NUM>). As a result, the folded structure of core <NUM> can at least partially be maintained such that two or more of the folded layers within each of edge regions 348a and 348b (e.g., those closest to lower layer <NUM>, such as 360a-360c and 360f-<NUM>, respectively) can remain at least partially in contact with each other and/or the lowermost folded layer can remain on the lower layer when the free portions of the core are lifted. These folded layers (e.g., 360a-360c and 360f-<NUM>) can create longitudinal dams within each of edge regions 348a and 348b that have a higher absorption capacity and larger swellable thickness to improve liquid containment.

Referring to <FIG>, shown is another article 300f which is substantially similar to article 300a, with the primary exception being the folded structure of core <NUM>. As shown, article 300f can have ten folded layers: five (360a-360e) within edge region 348a and five (360f-360j) within edge region 348b. In each of edge regions 348a and 348b, at least one folded layer (e.g., 360c or <NUM>) can be bonded to at least one other folded layer (e.g., 360d or 360i, respectively) via bond <NUM>, which can be an adhesive, ultrasonic, or adhesive bond. Bond <NUM> can at least partially maintain the folded structure of core <NUM> when the free portions of the core are lifted to create longitudinal dams that each have multiple folded layers.

Additionally, or alternatively, core <NUM> can comprise multiple laminates 332a and 332b, each having one of the arrangements of absorbent lamina(e) and substrate lamina(e) described above with respect to laminate <NUM>. Laminates 332a and 332b can, but need not, have the same arrangement of laminae. As shown, laminates 332a and 332b can be layered such that lower layer <NUM> and folded layers 360b, 360e, <NUM>, and 360j originate from laminate 332a and folded layers 360a, 360c-360d, 360f, and <NUM>-360i originate from laminate 332b. In other embodiments, core <NUM> can have any suitable number of laminates, such as, for example, greater than or equal to or between any two of <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more laminates layered and folded such that lower layer <NUM> originates from one of the laminate(s), and greater than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more folded layers originate from each of the laminate(s).

The folded layers can, but need not, be the same size, regardless of whether core <NUM> comprises a single laminate (e.g., <NUM>) or multiple laminates (e.g., 332a and 332b). To illustrate, for each of edge regions 348a and 348b, each of the folded layer(s) can span the entire width of the edge region (e.g., 352a or 352b) but, in some embodiments, one or more of the folded layer(s) can span a distance that is less than, or between any two of, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, or <NUM>% of the width of the edge region. For example, as shown, folded layers 360a and 360f can each span a lateral distance larger than that spanned by each of the other folded layers. When core <NUM> has differently-sized folded layers, the core can define multiple channels between edge regions 348a and 348b (e.g., one between folded layers 360a and 360f and one between the stack of folded layers 360b-360e and the stack of folded layers <NUM>-360j). Providing multiple channels can improve fluid management.

Referring to <FIG>, shown is another article <NUM> which is substantially similar to article 300d, the primary exception being the inclusion of a longitudinally-extending insert <NUM> coupled to laminate <NUM>. Insert <NUM> can comprise fluff and SAP to increase the absorption capacity of core <NUM> and additionally, or alternatively, can comprise a through-air bonded polymer nonwoven. When constructed from a through-air bonded polymer nonwoven, insert <NUM> can absorb and distribute rapid insults of liquid throughout laminate <NUM>.

Within each of edge regions 348a and 348b, a portion of insert <NUM> can be disposed above lower layer <NUM> and below at least one of the folded layer(s) (e.g., 360b-360c and 360e-360f) to mitigate leakage and promote insert retention. For example, liquid absorbed and distributed by insert <NUM> can be contained within containment zone <NUM> to reduce runoff. As shown, a first portion of insert <NUM> is disposed between folded layers 360a and 360b and a second portion of the insert is disposed between folded layers 360d and 360e. In other embodiments, however, insert <NUM> can be disposed on lower layer <NUM> such that, within each of edge regions 348a and 348b, a portion of the insert is disposed between the lower layer and one of the folded layers (e.g., 360a or 360d).

In some embodiments, core <NUM> can be disposed above insert <NUM> (e.g., when the insert comprises fluff and SAP). For example, insert <NUM> can be integrated into chassis <NUM> (e.g., between a topsheet and a backsheet of the chassis) and lower layer <NUM> can be bonded to the topsheet. Additionally or alternatively, lower layer <NUM> can be bonded to an upper surface of core <NUM>. The materials used in laminate <NUM> of core <NUM> can be selected such that the core has comparatively higher permeability to facilitate liquid transfer to insert <NUM> and maintain a dry wearer-facing surface. For example, second substrate lamina 336b can comprise a comparatively lighter nonwoven (e.g., having a basis weight between <NUM> and <NUM> gsm) and absorbent lamina 340a can comprise a comparatively lighter SAP (e.g., having a basis weight between <NUM> and <NUM> gsm).

<FIG>, <FIG>, <FIG>, <FIG>, <FIG>, <FIG>, and <FIG> are exaggerated to better understand the overall structure of the present articles (e.g., 300a-<NUM>), laminates (e.g., <NUM>), and absorbent cores (e.g., <NUM>) and, as such, are for illustrative purpose only and are not necessarily to scale. For example, the figures illustrate the relative positions and relationships between elements of the present articles, including, for example, the position of laminae in a laminate (e.g., <NUM>), the general folded structure of a core (e.g., <NUM>), and the manner in which free portions of the core lift away from a chassis (e.g., <NUM>) to define a containment zone (e.g., <NUM>), and should not be interpreted to limit the invention. More particularly, while the schematic views illustrate gaps between adjacent laminate layers, in application the core has a more compact thickness and adjacent laminate layers can be in contact with each other. The present laminates can have a thickness, for example, greater than or equal to, or between any two of, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, <NUM>, or more millimeters (mm) (e.g., between <NUM> and <NUM>). And while some of the schematic views represent the present laminates as a single black line, it should understood that the depicted laminates comprise any of the above-described arrangements of substrate lamina(e) (e.g., 336a and 336b) and absorbent lamina(e) (e.g., 340a) and can have any suitable orientation relative to the chassis.

The above specification and examples provide a complete description of the structure and use of illustrative embodiments. Although certain embodiments have been described above with a certain degree of particularity, or with reference to one or more individual embodiments, those skilled in the art could make numerous alterations to the disclosed embodiments without departing from the scope of this invention. As such, the various illustrative embodiments of the methods and systems are not intended to be limited to the particular forms disclosed. Rather, they include all modifications and alternatives falling within the scope of the claims, and embodiments other than the one shown may include some or all of the features of the depicted embodiment. For example, elements may be omitted or combined as a unitary structure, and/or connections may be substituted. Further, where appropriate, aspects of any of the examples described above may be combined with aspects of any of the other examples described to form further examples having comparable or different properties and/or functions, and addressing the same or different problems. Similarly, it will be understood that the benefits and advantages described above may relate to one embodiment or may relate to several embodiments.

Claim 1:
An absorbent article (300a, 300b, 300c, 300d, 300e, 300f, <NUM>) comprising:
a chassis (<NUM>) having opposing front and rear portions (<NUM>, <NUM>) and a crotch portion (<NUM>) extending longitudinally between the front and rear portions (<NUM>, <NUM>), wherein the crotch portion (<NUM>) is configured to conform about at least one of a wearer's groin area, perineum, and rear when the chassis (<NUM>) is in a wearable configuration;
an absorbent core (<NUM>) extending longitudinally along the crotch portion (<NUM>) and comprising a laminate (<NUM>) that includes two or more substrate laminae and one or more absorbent laminae (<NUM>), wherein:
each of the absorbent lamina(e) (<NUM>) comprises superabsorbent polymer (SAP);
a first one of the absorbent lamina(e) (<NUM>) is disposed between first and second ones of the substrate laminae (<NUM>); and
the laminate (<NUM>) is longitudinally folded such that the absorbent core (<NUM>) includes:
a lower layer (<NUM>) of the laminate (<NUM>) spanning a lateral width (<NUM>) of the absorbent core (<NUM>); and
one or more folded layers (360a, 360b, 360c, 360d, 360e, 360f, <NUM>, <NUM>, 360i, 360j) of the laminate (<NUM>) disposed above the lower layer (<NUM>) within each of first and second longitudinally-extending edge regions (348a, 348b), each of the edge regions (348a, 348b) spanning less than <NUM>% of the width (<NUM>) of the absorbent core (<NUM>);
wherein a center region (<NUM>) of the lower layer (<NUM>) is bonded to the crotch portion (<NUM>), the center region (<NUM>) spanning a lateral distance (<NUM>) smaller than said lateral width (<NUM>) of the absorbent core (<NUM>) and at least a portion of the absorbent core (<NUM>) in each of the edge regions (348a, 348b) is not bonded to the chassis (<NUM>) and thus can lift away from the chassis (<NUM>) to define a leakage-mitigating containment zone (<NUM>), when the chassis (<NUM>) is in the wearable configuration;
wherein the lifted portions provide an absorbent barrier impeding the escape of liquid and/or feces, and the liquid and/or feces escaping the containment zone (<NUM>) is absorbed from underneath the lifted portions of the core (<NUM>).