Patent Description:
A key benefit of having a Product Length-to-Side Silhouette of greater than about <NUM> is that it provides an overall product shape closer to that of underwear specifically bikini, hipster (low rise brief) for girls and low rise briefs for boys. These product forms provide a greater level of discretion while minimizing body coverage (improving breathability, comfort, freedom of movement, minimizing skin coverage, etc.) and focused anchoring at or adjacent the Body Hip Circumference which helps prevent the absorbent article from moving around on the body once it has been applied. The resultant design enables a product that is anchored effectively at the waist and hips of the wearer and as result the product will be easier to apply enabled in part by the short Relaxed Product Side Length in combination with the targeted anchoring band. Products with a lower Product Length-to-Side Silhouette, for example a Product Length-to-Side Silhouette less than about <NUM> have a much longer Relaxed Product Side Length and as a result a broader anchoring band which can result in a higher force waist hoop which in turn can be more difficult for a wearer to apply as well as being more constricting, less comfortable and less breathable than a shorter side length. Having a higher Product Length-to-Side Silhouette also results in a product fit, which is more tailored to the waist and hips thereby providing more effective gasketing, improved coverage (less coverage for improved breathability, less skin coverage, improved comfort, enhanced freedom of movement, etc.) and improved discretion. Additionally, product designs, which mimic the general shape of underwear convey to wearers a better, more tailored fit as the Product Length-to-Side Silhouettes are more similar to underwear forms they readily recognize. The designs enabled by the present disclosure are more targeted by design, i.e. the product is located properly with regard to the hip of the wearer and therefore provides a greater level of fit, gasketing, comfort and discretion all while addressing the emotional and psychological needs of the wearer.

The absorbent article forms of the present disclosure are designed to avoid excessively long article Relaxed Product Side Length resulting in excessive amounts of material which can lead to sagging or bunching in the crotch of the article and can also have an adverse impact on discretion if the excess material becomes visible above the waist of the clothing being worn over the article. Excessive material associated with an excessively long Relaxed Product Side length can also result in improper placement of the waist edge of the product and or gasketing elements of the center chassis contributing to improper fit, product sagging, gapping and leakage.

Discretion is very important to wearers who continue to experience incontinence episodes well beyond other individuals their age. A Relaxed Product Side Length designed to provide the necessary anchoring forces at the hip and/or waist and yet be short enough to ensure discretion will ensure the proper location of the product at the hip and or waist of the wearer while preventing the product from being seen above the waist line of the clothing being worn over the product. The Body Hip Circumference, due to the relationship to the prominent point of the buttocks, generally establishes the primary line of tension, anchoring point, of the absorbent article as it often represents the maximum circumference around the body. Anchoring at or immediately above the Body Hip Circumference can provide effective anchoring as the product circumference would have to increase in order for the product to slide down, slip or sag past the Body Hip Circumference. This is especially true for wearers who have a more pear-like body shape. In alternative embodiments, the Body Waist Circumference can be the primary line of tension, anchoring point of the absorbent article as it can represent the minimum circumference around the body especially for wearers who have a more hourglass body shape or a more apple-like body shape. This is a function of fit at the minimum circumference of the body (belly crease to small of the back) also referred to hereinafter as the low motion zone, which means the product circumference would have to increase in order to slide or sag due to the increased body dimension at the hip. Products having a high Relaxed Product Length to Relaxed Product Side Length Ratio (shorter side seam length) can have improved fit and anchoring due to the targeted line of tension at the waist and hip which provides a focused anchoring band at or adjacent the Body Hip Circumference maintaining the position of the product while at the same time maximizing discretion by minimizing the Relaxed Product Side Length to prevent the product from being seen above the waist of the clothing being worn over the absorbent article.

Absorbent articles of the present disclosure may be used to absorb and contain liquid and other discharges from the human body to prevent the body and clothing from becoming soiled. Wearers who suffer from urinary incontinence including nocturnal enuresis can have instances of high flow rate and high volume. Absorbent articles of the present disclosure having a high Product length-to-Side Silhouette Ratio, i.e., having a narrow anchoring band, which helps to anchor the product on the wearer at the waist and hips which in turn helps locate and anchor the gasketing elements of the product thereby enhancing leakage protection even at higher flow rates and/or higher volumes.

Absorbent articles of the prior art come in a variety of designs, each typically available in multiple sizes, including <NUM>, <NUM> and <NUM> size arrays. The various sizes of the prior art absorbent articles typically affect, for example, the size of the waist opening, the size of the openings around the thighs, and the length or "pitch" of the article. The prior art articles are typically sized and sold by weight. If a consumer selects an absorbent article of the prior art based on the weight only some consumers will encounter slipping, sliding, sagging, drooping, or a loss of gasketing effects because weight alone does not adequately characterize the differences in body shapes nor does it properly address the impact of anatomical differences across user sizes. Alternatively, depending on where the wearer is within the size range and/or the wearers shape, the thigh opening or pitch of the article may be too small for proper fit, potentially leading to wearer discomfort, skin marking of the wearer's skin or improper application or positioning of the article and the article's gasketing elements on the wearer leading to an increase in leakage and soiling.

Desirably, an absorbent article should be designed and sized to maintain contact with and conform as closely as possible to a wearer's body. Such a body-conforming design may increase the effectiveness of the absorbent article by reducing the possibility that urine, or the like, will spread or travel along the wearer's body and leak out of rather than be absorbed into the absorbent article. However, current prior art absorbent articles do not adequately address body shape as a function of product shape and therefore do not fit a broad range of users adequately or provide the desired level of close fit. Typically packages of absorbent articles are labeled with a recommended wearer weight range that the packaged article is intended to fit. As a result, the weight is often the sole criteria used to identify the size of the article. The weight does not in itself adequately describe the body shape of the individual and therefore does not help define the product form, hip or thigh circumference nor the pitch that may be needed to provide the proper fit, comfort, coverage and gasketing of the article. This is the case even though other characteristics and anthropometric attributes of potential wearers (for example, age, height, waist circumference, thigh circumference, hip circumference and rise) may vary widely within the recommended weight range, and therefore may result in an ill-fitting article even though a wearer's weight falls within that range. There is a need for absorbent articles that conform well to various wearers' body shapes and sizes. While there is a wide range of body shapes and sizes available products do not reflect this wide range; rather, absorbent articles available today within a given product array tend to be scaled versions of each other, and do not even follow the natural trend of body shape and dimensional changes across the range of consumers, i.e. smaller to larger wearers as well as wearers of varying shape.

Today there are a number of underwear forms, silhouettes, that are sold globally and they can be characterized generally into the group of girl bikini, girl hipsters (low rise briefs), girl briefs, girl boy shorts, boy low rise briefs, boy briefs and boy boxer briefs. These various underwear forms exist to provide wearers with an individual choice to allow them to find the right fit, level of comfort, degree of coverage, freedom of movement and appearance they desire. The transition from disposable absorbent articles to "real" underwear is the milestone every caregiver and absorbent article wearer looks forward to reaching. For wearers who have difficulty during the urine and or BM training stage, wearers with special needs and wearers who suffer from nocturnal enuresis, this milestone is very difficult to achieve. The inability for these individuals to achieve this milestone can have a significant psychological and emotional impact. Therefore there is a significant longstanding unmet consumer need to create absorbent articles that more closely match underwear in shape or form, fit, comfort and appearance while delivering superior leakage performance, protection and confidence. This longstanding consumer need forms the basis for the present disclosure. The present disclosure leverages key anatomical parameters translated into product parameters that provide products that more closely match the anatomy and/or provide a more underwear like experience to those suffering from uncontrollable incontinence. The absorbent articles of the present disclosure help provide some level of normalcy and emotional and psychological relief for these incontinence sufferers.

These are all objects of the present disclosure; embodiments of the present disclosure may combine various objects mentioned. A particular embodiment may, but need not, embody every object as described. <CIT> discloses an array of absorbent articles of different sizes.

According to an aspect of the invention, there is provided an absorbent articleaccording to claim <NUM>. The absorbent article may be in an array, where like absorbent articles each have a Product Length-to-Side Silhouette from about <NUM> to about <NUM> and a Relaxed Product Side Length less than about <NUM>% of a Relaxed Product Length; and where an Average Array Product Length-to-Side Silhouette is from about <NUM> to about <NUM>.

Insofar as the term "embodiment" is used in the following, or features are presented as being optional, this should be interpreted in such a way that the only protection sought is that of the invention claimed.

Reference(s) to "embodiment(s)" throughout the description which are not under the scope of the appended claims merely represent possible exemplary executions and are not part of the present invention.

"Pull-on garment" or "pant" means articles of wear which have a defined waist opening and a pair of leg openings and which are pulled onto the body of the wearer by inserting the legs into the leg openings and pulling the article up over the waist.

"Disposable" means garments, which are not intended to be laundered or otherwise restored or reused as a garment (i.e., they are intended to be discarded after a single use and to be recycled, composted or otherwise disposed of in an environmentally compatible manner). The pull-on garment may be "absorbent" such that it absorbs and contains the various exudates discharged from the body.

"Closed form" means opposing waist regions are joined to form a continuous waist opening and leg openings. See <FIG>, <FIG>, and <FIG>.

"Array" means a display of packages comprising disposable articles of different sizes having like article constructions (e.g., same elastomeric materials [compositionally and/or structurally] in the flaps, graphic elements) said packages having the same brand and/or sub-brand, and said packages oriented in proximity to each other in a given area of a retail store. An array is marketed as a line-up of products normally having like packaging elements (e.g., packaging material type, film, paper, dominant color, design theme, etc.) that convey to consumers that the different individual packages are part of a larger line-up. Arrays often have the same brand, for example, "Huggies," and same sub-brand, for example, "GoodNites. " A different array may have the brand "Huggies" and the sub-brand "Pull-Ups. " The differences between the "GoodNites" array and the "Pull-Ups" arrays may include for example different side seams, where "Good Nites" comprises a permanently closed side and "Pull-Ups" comprises a refastenable side seam. Furthermore, the packaging is distinctly different in that "GoodNites" is packaged in a predominately blue, film bag for boys and a predominantly pink, film bag for girls and "Pull-Ups" is packaged in a predominately blue, film bag for boys and a predominantly pink, film bag for girls. The key differences are the wearers displayed on the packaging wherein GoodNites packaging has older children displayed on it relative to the children on the Pull-Ups packaging.

Arrays also often have the same trademarks, including trademarks of the brand, sub-brand, and/or features and/or benefits across the line-up.

"On-line Array" means an "Array" distributed by a common on-line source.

"Product Length-to-Side Silhouette" means Relaxed Product Length (<NUM>) (mm) divided by the Relaxed Product Side Length (<NUM>) (mm). See <FIG> and <FIG>.

"Array Average Product Length-to-Side Silhouette" means the average Product Length-to-Side Silhouette of each size offered in a product array.

"Relaxed Product Length" means the longitudinal distance between the longitudinally distal most point in the crotch region and the longitudinally distal most point along the front waist edge. The longitudinal distance is measured parallel to the longitudinal axis of the product. Refer to <FIG> and <FIG>.

"Relaxed Product Hip Width" means the lateral distance from the laterally distal most point of the left side edge of the product at the upper edge of the left leg opening to the laterally distal most point of the right side edge of the product at the upper edge of the right leg opening. Refer to <FIG> and <FIG>. The lateral distance is measured perpendicular to the longitudinal axis of the product.

"Relaxed Product Waist Width" means the lateral distance from the distal most point at the right side of the front waist edge to the distal most point at the left side of the front waist edge. The lateral distance is measured perpendicular to the longitudinal axis of the product. Refer to <FIG> and <FIG>.

"Relaxed Product Side Length" means the linear distance from the point of intersection between the waist edge and the side edge of the product to the point of intersection between the top of the leg opening and the same side edge of the product. The relaxed product side length measurement is the average of the measurements from the left and right sides of the product. Refer to <FIG> and <FIG>.

"Side Length" means the vertical distance from the navel to the level of the hip (where the hips are defined at the maximum prominent point of the buttocks as seen from the side.

"Body Rise-to-Side Length Ratio" means the Body Rise (mm) divided by the Side Length (mm).

"Body Length-to-Side Silhouette" means the
Body Length (mm) divided by the Side Length (mm).

Consumers who are urinary incontinent especially those who are suffering from nocturnal enuresis often are traumatized by the condition. Many aspects of the condition contribute to the trauma, like the fear of having an incontinent event in public. Even when wearing an absorbent article, there is still the fear of leaking, and the fear of their absorbent article being noticeable under their clothes. As such providing a product experience that helps normalize the condition by providing a more underwear-like, thin and body conforming structure across the entire weight/age range is one of the objects of the present disclosure.

<FIG> illustrates a variety of specific shapes that may exist within each weight range: rectangle (also known as cylindrical), hourglass, pear, and apple. The higher the weight, the further to the right (toward the apple) a wearer typically is on this body shape scale. The prevalence of these shapes differs among weight ranges, for instance, higher weight wearers have a higher probability of being apple or pear shaped. Absorbent articles may be marketed to wearers of a particular body shape, such as apple, rather than focusing on exact weight values (which may be off-putting to a consumer), in order to match a wearer with the article that will best fit their unique body shape or size.

It may be desirable to link the Product Length-to-Side Silhouette to that of the targeted consumers Body Length-to-Side Silhouette in order to achieve a better fitting, better conforming, better gasketing product. This may increase the wearing comfort for each consumer while reducing leakage. Additionally, a product array where the Product Length-to-Side Silhouette of each subsequently larger size follows the same general trend as the Body Length-to-Side Silhouette for each subsequently larger size may also deliver a better fitting, better conforming article to each consumer regardless of their respective weight.

The anthropometric measures of Body Rise and Side Length are illustrated in <FIG>. The relationship between the ratio of Body Rise to Side Length Circumference versus Body Weight is illustrated in <FIG>. The projected body shape measures Body Length and Side Length are illustrated in <FIG>. The relationship of Body Length-to-Side Silhouette versus Body Weight is illustrated in <FIG>. <FIG> and <FIG> illustrate that there is a correlation between Body Rise to Side Length versus Body Weight, and the Body Length-to-Side Silhouette versus Body Weight.

The absorbent articles of the present disclosure are generally designed and configured to manage bodily exudates such as urine, menses, feces or other vaginal discharges.

In one embodiment, an absorbent article may comprise a chassis comprising a topsheet, a backsheet, and an absorbent core disposed at least partially between the topsheet and the backsheet. The absorbent chassis may comprise a waistband, leg cuffs and or elastic strands. In various embodiments, referring to <FIG>, an example absorbent article <NUM> is shown in its flat uncontracted state prior to joining the side seams, in some cases the side seams are formed by fastening components 53a and b.

In one embodiment, referring to <FIG>, one end portion of the absorbent article <NUM> may be configured as a front waist region <NUM> and the longitudinally opposing end portion may be configured as a back waist region <NUM>. An intermediate portion of the absorbent article <NUM> extending longitudinally between the front waist region <NUM> and the back waist region <NUM> may be configured as a crotch region <NUM>. The length of each of the front waist region <NUM>, the back waist region <NUM> and the crotch region <NUM> may be about <NUM>/<NUM> of the length of the absorbent article <NUM>, for example, as illustrated in <FIG> and <FIG> (versus coinciding with the front and back belts as illustrated in <FIG>. In other embodiments, the length of each of the front waist region <NUM>, the back waist region <NUM>, and the crotch region <NUM> may have other dimensions. In various embodiments, the absorbent article <NUM> may have a laterally extending front waist end edge <NUM> in the front waist region <NUM> and a longitudinally opposing and laterally extending back waist end edge <NUM> in the back waist region <NUM>.

In one embodiment, referring to <FIG>, a chassis <NUM> of the absorbent article <NUM> may comprise a first longitudinally extending side edge 137a and a laterally opposing and second longitudinally extending side edge 137b. Both of the side edges <NUM> may extend longitudinally between the front waist end edge <NUM> and the back waist end edge <NUM>. The chassis <NUM> may form a portion of the laterally extending front waist end edge <NUM> in the front waist region <NUM> and a portion of the longitudinally opposing and laterally extending back waist end edge <NUM> in the back waist region <NUM>. Furthermore, the chassis <NUM> may comprise an interior surface <NUM>, an exterior surface <NUM>, a longitudinal axis <NUM>, and a lateral axis <NUM>. The longitudinal axis <NUM> may extend through a midpoint of the front waist end edge <NUM> and through a midpoint of the back waist end edge <NUM>, while the lateral axis <NUM> may extend through a midpoint of the first side edge 137a and through a midpoint of the second side edge 137b.

In various embodiments, a portion of or the whole absorbent article <NUM> may be made to be laterally extensible. The extensibility of the absorbent article <NUM> may be desirable in order to allow the absorbent article <NUM> to conform to a body of a wearer during movement by the wearer. The extensibility may also be desirable, for example, in order to allow the caregiver to extend the front waist region <NUM>, the back waist region <NUM>, the crotch region <NUM>, and/or the chassis <NUM> to provide additional body coverage for wearers of differing size, i.e., to tailor the absorbent article <NUM> to the individual wearer. Such extension may provide the absorbent article <NUM> with a generally hourglass shape, so long as the crotch region <NUM> is extended to a relatively lesser degree than the waist regions <NUM> and/or <NUM>. This extension may also impart a tailored appearance to the absorbent article <NUM> during use.

Many current pull-on pant absorbent articles have a brief style design, dimensionally similar to full cut brief underwear. Such brief style articles are designed to fit in the waist at the navel of the wearer and along the legs and sides at level of the hip. All of these products have excessive length at the waist (see <FIG>, which has a greater length at the waist versus <FIG>, which illustrates an article having a lower waist profile) and as such have an increased potential for waistband rollover as well as decreased discretion due to the higher waist being visible above the waist of the clothes being worn over the article. Pant designs like the one illustrated in <FIG>, where the front (and back - not shown) waist edge <NUM> is fitted above a wearers <NUM> belly button <NUM>, may not be as discrete as pant designs like the one illustrated in <FIG>, where the front (and back - not shown) waist edge <NUM> is fitted below a wearers <NUM> belly button <NUM>.

The absorbent articles of the present disclosure have a larger Product Length to Side Silhouette. The resultant shape of a larger Product Length to Side Silhouette is more like bikini or hipster cut underwear. The bikini/hipster silhouette absorbent articles are designed to fit within the low motion zone of the wearer so that dynamic forces imparted by movements of the wearer on the absorbent article are minimized. The waistband portion of the absorbent article is designed to provide a primary line of tension. fitting at an angle to the body to secure the absorbent article on a wearer in a manner that does not contribute to sagging or sliding of the article. The absorbent article preferably further comprises elastic features for fitting about the extremities of the wearer including elastic waist features, elastic leg cuffs, and elastic side/hip panels that allow freedom of movement for the wearer as well as maintenance of forces about the body to sustain the fit and position of the absorbent article on the wearer. Absorbent articles of the present disclosure typically have Product Length to Side Silhouette ratios of greater than about <NUM> to about <NUM>.

Because the products are designed to fit into the Low Motion Zone, the product length is reduced and as a result so is the side seam length. This reduction in product length and side length for a given size (hip dimension) results in a higher Product Length to Side Silhouette. It is preferred that the front waist edge be positioned at or along the curve of the abdominal crease of the wearer such that the waist of the absorbent article will naturally fit into the low motion zone to maximize the comfort for the wearer. The bikini/hipster silhouette shaped article is designed to fit along the abdominal crease. through the crotch and over the buttocks into the lumbar curve of the back. This style of fit creates a waist hoop that is positioned at the minimum circumference of the body and in the low motion zone which will provide maximum anchoring while at the same time providing maximum comfort to the wearer. These bikini/hipster style absorbent articles typically have a side seam length that is less than about <NUM>% of the relaxed product length as measured along the longitudinal axis, preferably less than about <NUM>% of the folded product length, more preferably less than about <NUM>%.

The elastic features described herein enhance the dynamic fit of the absorbent article about the wearer in those zones that undergo dynamic changes caused by the wearer's movements. In an especially preferred embodiment, the absorbent article is provided with elastic waist features, elastic leg cuffs, and elastic side/hip panels that provide elastic extensibility to provide greater freedom of movement for the wearer and a more comfortable and contouring fit by initially conformably fitting the diaper to the wearer and by sustaining this fit during use. Anchoring the article in the Low Motion Zone also contributes to product stability and sustained gasketing resulting in superior fit and leakage performance.

The low motion zone is defined by the anatomy of the wearer. The "low motion zone" is defined to mean the zone or area of the body which despite dynamic movements remains substantially undeformed or undergoes very little motion. The low motion zone is bounded by the arcuate line in the hypogastric abdominal region connecting each anterior superior iliac spine through the crease or fold created by the rectus abdominus muscle, hereinafter the abdominal crease. The abdominal crease is typically the fold or flexton crease of skin or muscle created by the abdomen when the wearer goes into a sitting position. The low motion zone is bounded on each lateral side by an arcuate line connecting the anterior superior iliac spine through the perineum along the inguinal ligament under the gluteus maximus (along the gluteal fold) to about the posterior inferior iliac spine, hereinafter the leg crease. The low motion zone is bounded on the posterior of the wearer by the line connecting the posterior inferior iliac spine over the gluteous maximus and along the lumbar curve of the back, (the small of the back). For purposes of the present disclosure, the low motion zone also includes the zone or area of the gluteous maximus despite the fact that the gluteous maximus undergoes some dynamic motion since the forces generated in this zone caused by the wearer's movements tend to push up the absorbent core over the buttocks into the lumbar curve to enhance the fit of the absorbent core and the diaper rather than degrade such fit.

In order for the article to securely fit below or at the abdominal crease of the wearer, the front waist edge is preferably deformable such that it can approximate a substantially arcuate concave shape. As used herein, the term "arcuate" refers to lines other than a straight line although certain segments of the arcuate line may be straight line segments. The term "concave" is used to denote an arcuate line wherein the normal(s) to the curve converge. Once applied the waist edge may approximate an arcuate concave shape that generally corresponds to the abdominal crease and is defined in an anatomical sense by three points on the front waist edge corresponding to three points on the wearer. The two points of the front waist edge farthest away from the lateral centerline adjacent the side edges correspond to a point adjacent each anterior superior iliac spine of the wearer. The third point is the point along the longitudinal centerline of the article generally in line with the navel of the wearer typically defining the lower point on the abdominal crease of the wearer.

In a certain embodiments, the stomach will overhang the primary line of tension of the waist so that hoop stresses against the body are controlled and sustained. The back waist edge is preferably made of a material that can be deformed to approximate an arcuate convex shape so that when the diaper is worn, the waist edge is oriented diagonally downwardly across the hips toward the front of the wearer. Thus, the back waist region is perched or otherwise supported through the small of the back so as to prevent the absorbent article from shifting with the wearer's body during movements and to anchor the angled primary line of tension about the wearer from the lumbar curve of the back over the hips to under the abdominal crease. This design also tends to reduce gapping in the back waist region.

The front elastic waist feature and the back elastic waist feature each preferably take on an arcuate shape in use so that forces transmitted through the elastic waist features are along a line at an angle to the body of the wearer as discussed herein. Thus, the front elastic waist feature preferably has a substantially arcuate concave shape in use to establish a line of tension matching the natural curve of the abdomen of the wearer and to provide comfortable fit about the wearer. The back elastic waist feature has a substantially arcuate convex shape in use to further fit the diaper into the lumbar curve of the back and to allow the tensional forces (the primary line of tension) to be directed downward toward the abdominal crease of the wearer so as to provide a continuous primary line of tension. Due to these shapes for the elastic waist features, each elastic waist feature typically has differential extensibility along the longitudinal axis when stretched in the lateral direction. The differential extensibility allows portions to laterally expand to a greater degree than other portions along the longitudinal axis. This differential extensibility provides an abdominally compliant front elastic waist feature that allows the front elastic waist feature to differentially shape, expand and move with the stomach of the wearer as the wearer moves. sits, and stands as well as directs the tensional forces in the back elastic waist feature at the appropriate angle along the wearer.

Any or all portions of the absorbent article may comprise a bacteriophage composition as described in <CIT>.

In one embodiment, referring to <FIG>, <FIG>, <FIG> and <FIG>, the absorbent article <NUM> may comprise a topsheet <NUM>. The topsheet <NUM> may be compliant, soft feeling, and non-irritating to the wearer's skin and may be elastically stretchable in one or more directions. Further, the topsheet <NUM> may be liquid pervious, permitting liquids (e.g., menses, urine, and/or runny feces) to penetrate through its thickness. Various topsheets may also comprise a hydrophilic material, for example, which is configured to draw bodily fluids into an absorbent core of the chassis <NUM> when these fluids are expelled from the body. A suitable topsheet <NUM> may be manufactured from a wide range of materials, such as woven and nonwoven materials, apertured or hydroformed thermoplastic films, apertured nonwovens, porous foams, reticulated foams, reticulated thermoplastic films, and/or thermoplastic scrims, for example. Suitable apertured films may comprise those described in <CIT>, <CIT>,<CIT>, <CIT>,<CIT>, <CIT>,<CIT>, <CIT>, and<CIT>.

Apertured film or nonwoven topsheets typically may be pervious to bodily exudates, yet non-absorbent, and have a reduced tendency to allow fluids to pass back through and rewet the wearer's skin. Suitable woven and nonwoven materials may comprise natural fibers, such as, for example, wood or cotton fibers, synthetic fibers, such as, for example, polyester, polypropylene, or polyethylene fibers, or combinations thereof. If the topsheet <NUM> comprises fibers, the fibers may be spunbond, carded, wet-laid, meltblown, hydroentangled, or otherwise processed, for example, as is generally known in the art.

The topsheet may comprise a skin care lotion. Examples of suitable lotions include, but are not limited to, those described in <CIT>; <CIT>; <CIT>; <CIT>; and <CIT>, and as described in<CIT>.

In one embodiment, the topsheet may comprise graphics (e.g., <NUM> in <FIG>) such that depth perception is created as described in <CIT>.

In one embodiment, referring to <FIG>, <FIG>, <FIG> and <FIG>, for example, the absorbent article <NUM> may comprise a backsheet <NUM>. The backsheet <NUM> may be impervious, or at least partially impervious, to fluids or body exudates (e.g., menses, urine, and/or runny feces) and may be manufactured from a thin plastic film, although other flexible liquid impervious materials may also be used. The backsheet <NUM> may prevent the body exudates or fluids absorbed and contained in an absorbent core of the absorbent article <NUM> from wetting articles which contact the absorbent article <NUM>, such as bedsheets, pajamas, clothes, and/or undergarments. The backsheet <NUM> may comprise a woven or nonwoven material, polymeric films such as thermoplastic films of polyethylene or polypropylene, and/or a multi-layer or composite materials comprising a film and a nonwoven material (e.g., having an inner film layer and an outer nonwoven layer). A suitable backsheet may comprise a polyethylene film having a thickness of from about <NUM> (<NUM> mils) to about <NUM> (<NUM> mils). Examples of polyethylene films are manufactured by Clopay Corporation of Cincinnati, Ohio, under the designation BR-<NUM> and BR-<NUM>, and by Tredegar Film Products of Terre Haute, Ind. , under the designation XP-<NUM>.

One suitable material for the backsheet can be a liquid impervious thermoplastic film having a thickness of from about <NUM> (<NUM> mil) to about <NUM> (<NUM> mils), for example including polyethylene or polypropylene. Typically, the backsheet can have a basis weight of from about <NUM>/m<NUM> to about <NUM>/m<NUM>. The backsheet can be typically positioned adjacent the outer-facing surface of the absorbent core and can be joined thereto. For example, the backsheet may be secured to the absorbent core by a uniform continuous layer of adhesive, a patterned layer of adhesive, or an array of separate lines, spirals, or spots of adhesive. Illustrative, but non-limiting adhesives, include adhesives manufactured by H. Fuller Company of St. Paul, Minn. , and marketed as HL-1358J. An example of a suitable attachment device including an open pattern network of filaments of adhesive is disclosed in <CIT>. Another suitable attachment device including several lines of adhesive filaments swirled into a spiral pattern is illustrated by the apparatus and methods shown in <CIT>; <CIT>; and <CIT>. Alternatively, the attachment device may include heat bonds, pressure bonds, ultrasonic bonds, dynamic mechanical bonds, or any other suitable attachment device or combinations of these attachment devices.

In one embodiment, the backsheet <NUM> may be embossed and/or matte-finished to provide a more cloth-like appearance. Further, the backsheet <NUM> may permit vapors to escape from the absorbent core of the absorbent article <NUM> (i.e., the backsheet <NUM> is breathable) while still preventing, or at least inhibiting, fluids or body exudates from passing through the backsheet <NUM>. In one embodiment, the size of the backsheet <NUM> may be dictated by the size of the absorbent article <NUM> and the design or configuration of the absorbent article <NUM> to be formed, for example.

In various embodiments, referring to <FIG>, <FIG>, <FIG> and <FIG>, the absorbent article <NUM> may comprise an absorbent core (also referred to as an "absorbent member" or "absorbent assembly" or "absorbent structure" or "absorbent composite") <NUM> that is disposed between the topsheet <NUM> and the backsheet <NUM>. The absorbent core <NUM> may comprise a laterally extending front edge <NUM> in the front waist region <NUM>, a longitudinally opposing and laterally extending back edge <NUM> in the back waist region <NUM>, a first longitudinally extending side edge 237a, and a laterally opposing and second longitudinally extending side edge 237b. Both of the side edges <NUM> may extend longitudinally between the front edge <NUM> and the back edge <NUM>. In one embodiment, more than one absorbent core <NUM> or more than one absorbent core layer may be provided in an absorbent article <NUM>, for example. The absorbent core <NUM> may be any suitable size or shape that is compatible with the absorbent article <NUM>. Example absorbent structures for use as the absorbent core <NUM> of the present disclosure that have achieved acceptance and commercial success are described in <CIT>; <CIT>; <CIT>; and <CIT>.

In one embodiment, suitable absorbent cores may comprise cellulosic airfelt material. For instance, such absorbent cores may comprise less than about <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, or even <NUM>% of the cellulosic airfelt material as determined by weight. Additionally, such an absorbent core may be primarily comprised of an absorbent gelling material in amounts of at least about <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, <NUM>%, or even about <NUM>% as determined by weight. Furthermore, a portion of the absorbent core may comprise a microfiber glue (if applicable). Such absorbent cores, microfiber glues, and absorbent gelling materials are described in <CIT>; <CIT>; <CIT>; <CIT>; and <CIT> and in <CIT>.

In one embodiment, the core, including multiple layers making up the core system, may be printed and embossed as described in <CIT>.

In one embodiment, the core may be separable from the chassis as disclosed in <CIT>; <CIT>; <CIT>; <CIT>; <CIT>; and <CIT>. In such embodiments, the measurements described in this disclosure may be made to the chassis alone or may be made to the chassis in combination with the separable core/absorbent assembly.

In one embodiment, the absorbent article of the present disclosure, and particularly, a portion where the absorbent member is disposed, may have a body fluid absorption rate greater than <NUM>/sec according to <CIT>. According to <CIT>, the expression "the portion (of the absorbent article) where the absorbent member is disposed" is intended to mean the portion occupied by the absorbent member when the absorbent article is flatly unfolded and seen in its plan view.

In one embodiment, the absorbent structure may have an intake factor greater than <NUM> according to <CIT>, wherein the intake factor is defined as the absorbent core permeability divided by the normalized retention capacity (which is defined by the Retention Capacity Test - also according to <CIT>).

In one embodiment, the absorbent composite has a body fluid absorption greater than <NUM>/<NUM><NUM>, according to <CIT>.

In one embodiment, a target location of the absorbent article may have a wicking value greater than <NUM>%, according to <CIT>.

In one embodiment, the absorbent article may have a bending stiffness between <NUM>-<NUM> gf, according to <CIT>.

In one embodiment, the absorbent article may have a crotch fluid absorption rate greater than <NUM>/sec according to <CIT>. In one embodiment, a freeze-dried composite of the absorbent composite may have an intake rate of at least about <NUM> cubic centimeters (cc) of liquid/second at <NUM>% composite saturation according to <CIT>.

In one embodiment, referring to <FIG> and <FIG>, the chassis <NUM> of the absorbent article <NUM> may comprise longitudinally extending and laterally opposing leg cuffs 147a and 147b that are disposed on the interior surface of the chassis <NUM> that faces inwardly toward the wearer and contacts the wearer. The leg cuffs 147a and 147b may comprise one or more elastic gathering members disposed at or adjacent the proximal edge of one or both of the leg cuffs <NUM>. In addition, the elastic gathering members of the leg cuff may also comprise one or more elastic strands <NUM> disposed at or adjacent the distal edge of one or both of the leg cuffs <NUM>. The elasticized leg cuffs <NUM> may comprise several embodiments for reducing the leakage of body exudates or fluids in the leg regions. The elasticized leg cuffs <NUM> are sometimes referred to as leg bands, barrier cuffs, elastic cuffs, or gasketing cuffs. Suitable elasticized leg cuffs <NUM> may comprise those described in <CIT>,<CIT>, <CIT>,<CIT>, <CIT>, and<CIT>, and <CIT>. The leg cuffs <NUM> may be formed by folding portions of the chassis <NUM> laterally inward, i.e., toward the longitudinal axis <NUM>, to form both the respective leg cuffs <NUM> and the side edges 137a and b of the chassis <NUM>. In other embodiments, the leg cuffs <NUM> may be formed by attaching an additional layer or layers to the chassis <NUM> at or adjacent to each of the respective side edges 137a and 137b of the chassis <NUM>. In one embodiment, the chassis <NUM> may also comprise other elastics disposed adjacent the side edges <NUM> which may cause the article <NUM> to form into a "U" shape when allowed to relax thereby pulling the interior surface <NUM> of the front waist region <NUM> toward the interior surface <NUM> of the back waist region <NUM>.

In one embodiment, each leg cuff <NUM> may comprise a proximal edge 157a and 157b. These edges 157a and 157b are positioned proximate to the longitudinal axis <NUM> compared to distal edges 139a and 139b. The leg cuffs <NUM> may overlap the absorbent core <NUM>, i.e., the proximal edges 157a and 157b lie laterally inward of the respective side edges 237a and 237b of the absorbent core <NUM>. Such an overlapped configuration may be desirable in order to impart a more finished appearance to the absorbent article <NUM> than that imparted by a non-overlapped configuration. In other embodiments, the leg cuffs <NUM> may not overlap the absorbent core <NUM>.

In one embodiment, each leg cuff <NUM> may be attached to the interior surface <NUM> of the chassis <NUM> in a leg cuff attachment zone (not shown) adjacent to the front waist end edge <NUM> and in a longitudinally opposing leg cuff attachment zone (not shown) adjacent to the back waist end edge <NUM>. In one embodiment, between the leg cuff attachment zones, the proximal edge <NUM> of the leg cuff <NUM> remains free, i.e., not attached to the interior surface <NUM> of the chassis <NUM> or to the absorbent core <NUM>. Also, between the longitudinally opposing leg cuff attachment zones, each leg cuff <NUM> may comprise one or more (specifically including one, two, three, or four elastic strands per leg cuff <NUM>) longitudinally extensible cuff elastic gathering members <NUM> that may be disposed at or adjacent to the proximal edge <NUM> of the leg cuff <NUM> by any suitable methods. Each of such cuff elastic gathering members <NUM> may be attached over the leg cuff's entire length or over only a portion of the leg cuff's length. For example, such cuff elastic gathering members <NUM> may be attached only at or near the leg cuff's longitudinally opposing ends and may be unattached at the middle of the leg cuff's length. Such cuff elastic gathering members <NUM> may be disposed in the crotch region <NUM> and may extend into one or both of the front waist region <NUM> and the back waist region <NUM>. For example, an elastic gathering member <NUM> may be attached at or adjacent to the proximal edge <NUM> of each of the leg cuffs <NUM> and extends into both the front waist region <NUM> and the back waist region <NUM>.

In various embodiments, each cuff elastic gathering member <NUM> may be enclosed inside a folded hem for example. In various embodiments, the cuff elastic gathering members <NUM> may be sandwiched between two layers forming the leg cuff <NUM>, by two layers of the chassis <NUM>, or may be attached on a surface of the chassis <NUM> or the leg cuff <NUM> and remain exposed.

In one embodiment, when stretched, the cuff elastic gathering member <NUM> disposed adjacent to each leg cuff's proximal edge <NUM> allows the leg cuff proximal edge <NUM> to extend to the flat uncontracted length of the chassis <NUM>, e.g., the length of the chassis <NUM>. When allowed to relax, the cuff elastic gathering member <NUM> contracts to pull the front waist region <NUM> and the back waist region <NUM> toward each other and, thereby, bend the article <NUM> into a "U" shape in which the interior of the "U" shape may be formed by the portions of the article <NUM> that are intended to be placed toward the body of the wearer (i.e., interior surface <NUM>). Because each of the proximal edges <NUM> remains free between the longitudinally oriented leg cuff attachment zones, the contractive force of the elastic gathering member <NUM> may lift the proximal edge <NUM> of the leg cuff <NUM> away from the interior surface <NUM> of the chassis <NUM>. This lifting of the proximal edges <NUM> when the article <NUM> is in the relaxed condition lifts the leg cuffs <NUM> into a position to serve as side barriers to prevent, or at least inhibit, leakage of bodily exudates.

In one embodiment, referring to <FIG>, the article <NUM> may comprise an elasticized waistband 112a and b. The elasticized waistband may provide improved fit and containment and may be configured to elastically expand and contract laterally to dynamically fit a wearer's waist. The elasticized waistband may extend longitudinally outwardly from the waist edge of the absorbent article <NUM> toward the waist edge of the absorbent core <NUM>. In one embodiment, the absorbent article <NUM> may have two elasticized waistbands, one positioned in the back waist region <NUM> and one positioned in the front waist region <NUM>, although other pant embodiments may be constructed with a single elasticized waistband. The elasticized waistband may be constructed in a number of different configurations including those described in <CIT> and <CIT>.

In one embodiment, the elasticized waistbands may comprise materials that have been "prestrained" or "mechanically prestrained" (i.e., subjected to some degree of localized pattern mechanical stretching to permanently elongate the material). The materials may be prestrained using suitable deep embossing techniques. In other embodiments, the materials may be prestrained by directing the material through an incremental mechanical stretching system as described in <CIT>. The materials may then be allowed to return to their substantially untensioned condition, thus forming a zero strain stretch material that is extensible, at least up to the point of initial stretching. Examples of zero strain materials are disclosed in <CIT>, <CIT>, <CIT>, <CIT>,<CIT>, and<CIT>.

The flaps <NUM> (a-d) may be discrete from or integral with the chassis <NUM>. A discrete flap is formed as separate element, which is joined to the chassis <NUM>. In some embodiments, this includes a plurality of flaps, e.g. <NUM> or <NUM> (often referred to as ear panels or side flaps) being joined to the side edges <NUM> a and b of the chassis in the front and/or rear waist regions <NUM> and <NUM> (see <FIG>). In other embodiments this may include a front and/or back belt-like flaps ("belts") being joined across the front and back (or rear) waist regions of the chassis <NUM>, at least across end edges of the chassis <NUM> and <NUM> (see <FIG>, <FIG>, <FIG> and <FIG>). In some embodiments the waistbands <NUM> can overlap the flaps to create a continuous belt-like structure (see <FIG>).

The belt-like flaps and may comprise an inner nonwoven layer and an outer nonwoven layer and elastics there between. The inner and outer nonwoven layers may be joined using adhesive or thermoplastic bonds. Various suitable belt-like flap configurations can be found in <CIT>.

An integral flap is a portion, one or more layers, of the chassis that projects laterally outward from the longitudinal edge. The integral flap may be formed by cutting the chassis to include the shape of the flap projection.

While many of the embodiments illustrated in this application having belt-like flaps are pant articles, taped articles may have belt-like flaps disposed in one or both waist regions as well.

The structure of flaps play an important role in the functionality of the absorbent article and are fundamentally different than the elastics used in underwear. As mentioned above, incontinence events, such as SUI and UUI, can result in a high flow rate and/or a full bladder release. The amounts of urine expelled during the incontinence events can vary wildly given the type of urinary incontinence as well as other circumstances such as time since last bathroom visit, amount of fluid intake, day or night, etc. Loadings can range from as low as a few drops of urine to loadings as high as <NUM> mls. It is not unusual to have single loadings as high as <NUM>, <NUM> and even <NUM> mls. These levels of loading present a significant downward force associated with the loading which can be a pound or more. This downward force must be compensated for by the absorbent article chassis in order to minimize sagging, gapping and leakage. In order to sustain the fit of the article even after loading the article comprises elastomeric element(s) <NUM>, including films (including apertured films) and/or strands) that are disposed proximate to and along the side seams 280a and b (see, for example, <FIG>, where the elastomeric elements <NUM> terminate proximate to and along the length of the seams 280a and b) of the article and extend laterally from one side toward the other. Each of the elastomeric elements <NUM> may extend continuously from side seam 280a to side seam 280b in the front and the back belts along the longitudinal distance from the belt waist edges <NUM>, <NUM> to the opposite belt end edges (versus being cut as illustrated in <FIG>, <FIG>, <FIG>, and <FIG>), such that one or more of the elastomeric elements <NUM> overlap with the absorbent core <NUM>; it may be desirable for <NUM> or more elastic elements <NUM> to overlap with the core in the front and/or back waist regions <NUM> and <NUM>. These elastomeric element(s) should create a normal force against the body sufficient to anchor the article. The location of the elastomeric element(s), as well as the forces exerted by the elastomeric element(s) can be varied to ensure proper anchoring at the hips and along the body specifically across the front waist region and in the back waist region. One form of anchoring beneficial for sustaining the fit of a loaded article is disclosed in <CIT> It should also be noted that regular underwear with elastic along the waist edge and leg edges would not typically provide sufficient support to sustain the fit of the underwear if a weight of <NUM>-<NUM> grams was applied to the crotch region of the underwear.

As shown in <FIG>, the flaps may be shaped along the leg openings.

The absorbent article may also include a fastening system. When fastened, the fastening system interconnects the front waist region <NUM> and the rear waist region <NUM> resulting in a waist circumference that may encircle the wearer during wear of the absorbent article <NUM>. This may be accomplished by flaps <NUM> a and b in the back waist region interconnecting with flaps <NUM> c and d in the front waist region or by flaps in the back waist region interconnecting with the chassis <NUM> in the front waist region. The fastening system may comprises a fastener <NUM> a and b such as tape tabs, hook and loop fastening components, interlocking fasteners such as tabs & slots, buckles, buttons, snaps, and/or hermaphroditic fastening components, although any other known fastening means are generally acceptable. The fasteners may releasably engage with a landing zone <NUM>, which may be a woven or nonwoven. Some exemplary surface fastening systems are disclosed in <CIT>; <CIT>; <CIT>; <CIT>; <CIT>; <CIT>; and <CIT>. An exemplary interlocking fastening system is disclosed in <CIT>. The fastening system may also provide a means for holding the article in a disposal configuration as disclosed in <CIT>. The fastening system may also include primary and secondary fastening systems, as disclosed in <CIT>. The fastening system may be constructed to reduce shifting of overlapped portions or to improve fit as disclosed in <CIT>; <CIT>; <CIT>; and <CIT>.

As disclosed in <CIT>, it may be desirable to offer an array of packages for fitting different sized wearers, but comprising identical or substantially identical chassis. For instance, an array may comprise a first package comprising a first size of absorbent articles and a second package may comprise a second size of absorbent articles, where the first and second packages comprise identical or substantially identical chassis as described in <CIT>. More particularly, the first package may comprise a first chassis and the second package may comprise a second chassis, where each of the first and second chassis comprise the same dimensions of one or more of: core width at the lateral centerline, core width at one of the front or rear core end, a distance from a left outer cuff distal edge to a right outer cuff distal edge, a distance from a left inner cuff distal edge to a left outer cuff distal edge, a distance from a left inner cuff proximal edge to a right inner cuff proximal edge, a distance from a left inner cuff proximal edge to a left outer cuff distal edge, a free height of the inner cuff, inner cuff hem fold width, inner cuff elastics length, outer cuff elastics length, core length, and backsheet width.

Further, each of the first and second chassis may comprise identical chemical compositions of one or more of a topsheet, backsheet film, backsheet nonwoven, core super absorbent polymers, core pulp, core nonwoven, core tissue, leg cuff film, leg cuff nonwoven, super absorbent polymer adhesive, core nonwoven adhesive, leg cuff elastic adhesive, and backsheet nonwoven/film adhesive.

And, each of the first and second chassis may comprise the same basis weight of one or more of the topsheet, backsheet film, backsheet nonwoven, core super absorbent polymers, core pulp, leg cuff nonwoven, leg cuff film, super absorbent polymer adhesive, leg cuff adhesive, and backsheet nonwoven/film adhesive.

And, each of the first and second chassis may comprise compositionally identical core super absorbent polymers. The first and second chassis may have identical component cross sectional order and disposition in at least one of the front waist region, back waist region, and crotch region. The inner leg cuffs of the first and second chassis may be composed of the compositionally identical materials.

And, the core adhesives of the first and second chassis may be the same adhesive(s). The first and second chassis may comprise core super absorbent polymers that are in the same chemical class and subclass.

And, each of the first and second chassis may comprise first and second wetness indicators, respectively, and wherein the first and second wetness indicators are compositionally identical.

Further, the inner leg cuffs of the first and second chassis may have identical component cross sectional order and disposition in at least one of the front waist region, back waist region, and crotch region. The distance from the left outer cuff distal edge to a right outer cuff distal edge may the same. The distance from the left inner cuff proximal edge to left outer cuff distal edge may be the same. The distance from the left inner cuff proximal edge to the right inner cuff proximal edge is the same. The lengths of the inner and outer cuffs are the same.

In some embodiments, different size offerings in an array may have identical or substantially identical chassis as the flaps or belts may be used to enable the absorbent article to fit different sized wearers. For example, first and second absorbent articles may have identical chassis (compositionally, dimensionally, cross-sectionally), but the first article may have a different length due to disposition of the belts, such that the first article may be targeted to fit a smaller wearer than the second article. As a second example, first and second absorbent articles may have identical chassis (compositionally, dimensionally, cross-sectionally), but the first article may have a different length and/or width due to the size of the belts, such that the first article may be targeted to fit a smaller wearer than the second article.

In some embodiments, first and second absorbent articles may have identical chassis compositionally, but not dimensionally, and not cross-sectionally. In some embodiments, first and second absorbent articles may have identical chassis dimensionally, but not compositionally, and not cross-sectionally. In some embodiments, first and second absorbent articles may have identical chassis cross-sectionally, but not dimensionally, and not compositionally. In still other embodiments, first and second absorbent articles may have two, but not three of (<NUM>) compositionally, (<NUM>) dimensionally, and (<NUM>) cross-sectionally identical chassis.

It may be desirable to link the Product Length-to-Side Silhouette to the Body Length-to-Side Silhouette in order to deliver a more bikini or hipster-like product shape relative to the body shape. Bikini and hipster-like underwear exhibit Product Length-to-Side Silhouettes that are greater than the Body Length-to-Side Silhouettes. Tables 1a and 1b details some of today's marketed product arrays. <FIG> shows how the Product Length-to-Side Silhouettes of these arrays compare to the Body Length-to-Side Silhouettes. It can be seen that today's product arrays do not provide Product Length-to-Side Silhouettes greater than Body Length-to-Side Silhouettes.

Table <NUM> illustrates several inventive arrays of <NUM>, <NUM>, and <NUM> packages, whose Product Length-to-Side Silhouettes are greater than the Body Length-to-Side Silhouettes and provide more bikini and hipster-like products. These inventive arrays are provided simply as non-limiting examples. Other inventive arrays are possible within the scope of this disclosure. These inventive Length-to-Side Silhouette arrays are also shown in <FIG>.

It may be desirable to have an absorbent article having a Product Length-to-Side Silhouette value of from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>. The claimed absorbent article has a Product Length-to-Side Silhouette from about <NUM> to about <NUM>.

It may be desirable to have an absorbent article having a Product Length-to-Side Silhouette value from about <NUM>, about <NUM>, about <NUM>, or about <NUM> to about <NUM>, about <NUM>, or about <NUM>, and any combination thereof.

It may be desirable to have an absorbent article having a Relaxed Product Side Length less than about <NUM>%, about <NUM>%, about <NUM>%, or about <NUM>%, but greater than about <NUM>%, about <NUM>%, about <NUM>%, or about <NUM>%, of the Relaxed Product Length.

It may be desirable to have an absorbent article within an array, the array comprising two or more absorbent articles, where one or more absorbent articles in the array has a Product Length-to-Side Silhouette value of from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>. Further, it may be desirable to have an Array Average a Product Length-to-Side Silhouette value of from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>, or from about <NUM> to about <NUM>.

It may be desirable to have an absorbent article within an array, the array comprising two or more absorbent articles, where one or more absorbent articles in the array has a Relaxed Product Side Length less than about <NUM>%, about <NUM>%, about <NUM>%, or about <NUM>% of the Relaxed Product Length.

All measurements are conducted at <NUM>° C +/- <NUM>° and <NUM>% RH +/- <NUM>%.

This method is used to prepare pant type products for subsequent dimensional measurement. The method provides a consistent means of opening a product that has been removed from a bag. This method is applicable to all forms of pant products. A constant rate of extension tensile testing machine with computer interface is used.

A load cell is chosen so that the load cell capacity ensures accuracy of a 5N load to within <NUM>.

"C" (<NUM>) and "O" (<NUM>) Bar attachments each with a rod radius of <NUM> that extend longer than the length of the longest side seam. Refer to <FIG>. The bars are mounted horizontally in the tensile tester with their longitudinal axes in the same vertical plane and with upper bar mounted directly above the lower bar.

Calibrate tensile tester equipment according to the instrument manufacturer's recommendations.

The initial gauge length is determined by removing <NUM> sample products from the bag, unfolding the pant products (<NUM>) and laying them flat as illustrated in <FIG>, below and measuring the distance between the sides of the pant at the waist as shown (<NUM>). The average of the waist measurement will be used as the initial gauge length for the specific set of specimens. The initial gauge length is the distance from the uppermost edge of the upper bar to the lowermost edge of the lower bar.

Apply the whole product (<NUM>) to the bars as shown in <FIG> while minimizing manipulation of the specimen.

Pull Sample to 5N Force then hold for <NUM> seconds. Return to initial gauge length.

Crosshead Speed = <NUM>/min, Data acquisition rate = <NUM>.

Remove the specimen from the bars while minimizing manipulation. Lay the specimen flat with the front side facing upward as shown in <FIG>.

Each of the measurements below is to be conducted on <NUM> separate like specimens and the average of the <NUM> separate like specimens is considered to be the measurement for that specific specimen set.

Relaxed Product Length is the longitudinal distance between the longitudinally distal most point in the crotch region and the longitudinally distal most point along the front waist edge. The longitudinal distance is measured parallel to the longitudinal axis of the product. Refer to <FIG> and <FIG>.

Relaxed Product Hip Width is the lateral distance from the laterally distal most point of the left side edge of the product at the upper edge of the left leg opening to the laterally distal most point of the right side edge of the product at the upper edge of the right leg opening. Refer to <FIG> and <FIG>. The lateral distance is measured perpendicular to the longitudinal axis of the product.

Relaxed Product Waist Width is the lateral distance from the distal most point at the right side of the front waist edge to the distal most point at the left side of the front waist edge. The lateral distance is measured perpendicular to the longitudinal axis of the product. Refer to <FIG> and <FIG>.

Relaxed Product Side Length is the linear distance from the point of intersection between the waist edge and the side edge of the product to the point of intersection between the top of the leg opening and the same side edge of the product. The relaxed product side length measurement is the average of the measurements from the left and right sides of the product. Refer to <FIG> and <FIG>.

Claim 1:
An absorbent article (<NUM>) having a central chassis, the central chassis comprising a topsheet (<NUM>), a backsheet (<NUM>) and an absorbent core (<NUM>), the absorbent article comprising:
a front waist region (<NUM>) and a front waist edge (<NUM>);
a back waist region (<NUM>) and a back waist edge (<NUM>);
a front belt disposed in the front waist region;
a back belt disposed in the back waist region;
wherein the front and back belts are joined at side seams (280a, 280b) to form a waist opening and leg openings; and
characterized in that:
greater than <NUM>%, but less than <NUM>%, of a longitudinal length of the center chassis overlaps with the front and back belts; and
the article has a Product Length-to-Side Silhouette from about <NUM> to about <NUM>, wherein the Product Length-to-Side Silhouette is measured according to the method in the description.