An absorbent article comprising a liquid-permeable topsheet, a liquid-impermeable backsheet, an absorbent material between the topsheet and the backsheet. The absorbent material comprising a superabsorbent polymer optionally mixed with cellulose fibers. The absorbent article comprises a lower acquisition and distribution layer disposed between the absorbent material and the backsheet, wherein the lower acquisition and distribution layer has a Strike-In below 10 seconds, as measured by the Strike-In test described herein, and a Median Desorption Pressure of less than 20 cmH2O, as measured by the Capillary Sorption Test Method.

An absorbent article comprising a liquid-permeable topsheet, a liquid-impermeable backsheet, an absorbent material between the topsheet and the backsheet. The absorbent material comprising a superabsorbent polymer optionally mixed with cellulose fibers. The absorbent article comprises a lower acquisition and distribution layer disposed between the absorbent material and the backsheet, wherein the lower acquisition and distribution layer has a Strike-In below 10 seconds, as measured by the Strike-In test described herein, and a Median Desorption Pressure of less than 20 cmH2O, as measured by the Capillary Sorption Test Method.

A substantially planar absorbent core (28) extending in a transversal direction (x) and a longitudinal direction (y), and comprising a core wrap (16, 16′) enclosing an absorbent material (60) substantially free of cellulose fibers, the absorbent material forming a pattern of discrete absorbent material areas. The pattern comprises transversally-orientated areas (752) and longitudinally-orientated areas (754). The absorbent core may further comprise at least two longitudinally-orientated channel-forming areas (26).

A substantially planar absorbent core (28) extending in a transversal direction (x) and a longitudinal direction (y), and comprising a core wrap (16, 16′) enclosing an absorbent material (60) substantially free of cellulose fibers, the absorbent material forming a pattern of discrete absorbent material areas. The pattern comprises transversally-orientated areas (752) and longitudinally-orientated areas (754). The absorbent core may further comprise at least two longitudinally-orientated channel-forming areas (26).

An absorbent article which can have an improved vertical absorption capability in the depth direction of the absorbent article. The absorbent article can have a topsheet layer, a backsheet layer, and an absorbent system positioned between the topsheet layer and the backsheet layer. The absorbent system can have at least a fluid intake layer and an absorbent core. The fluid intake layer can provide the absorbent article with a raised portion which can improve the vertical absorption capability in the depth direction of the absorbent article.

An absorbent article which can have an improved vertical absorption capability in the depth direction of the absorbent article. The absorbent article can have a topsheet layer, a backsheet layer, and an absorbent system positioned between the topsheet layer and the backsheet layer. The absorbent system can have at least a fluid intake layer and an absorbent core. The fluid intake layer can provide the absorbent article with a raised portion which can improve the vertical absorption capability in the depth direction of the absorbent article.

A diaper structure with enhanced softness attributes is disclosed. The diaper structure may include an innermost layer formed of a first nonwoven web, and an outermost layer formed of a second nonwoven web. The first and second nonwoven webs may have a combined basis weight of at least about 30 gsm. The ratio of the first web basis weight to the second web basis weight may range from 30/70 to 70/30.

A diaper structure with enhanced softness attributes is disclosed. The diaper structure may include an innermost layer formed of a first nonwoven web, and an outermost layer formed of a second nonwoven web. The first and second nonwoven webs may have a combined basis weight of at least about 30 gsm. The ratio of the first web basis weight to the second web basis weight may range from 30/70 to 70/30.

A method is provided to accelerate transfer of released body fluids from a body through a treated textile fabric to promote dryness of a skin of the body, the method comprising providing a treated textile fabric facing the body fluids to be transferred, wherein the treated textile fabric includes a first surface and a second surface, wherein the first surface is positioned facing towards the body fluids and the second surface is positioned facing away from the body fluids, wherein the treated textile fabric is structured with a plurality of pores so to allow a passage of a liquid from the first surface to the second surface, and wherein the first surface is coated with a graphene material such that a permeation flux of the first surface is greater than a permeation flux of the second surface.

A method is provided to accelerate transfer of released body fluids from a body through a treated textile fabric to promote dryness of a skin of the body, the method comprising providing a treated textile fabric facing the body fluids to be transferred, wherein the treated textile fabric includes a first surface and a second surface, wherein the first surface is positioned facing towards the body fluids and the second surface is positioned facing away from the body fluids, wherein the treated textile fabric is structured with a plurality of pores so to allow a passage of a liquid from the first surface to the second surface, and wherein the first surface is coated with a graphene material such that a permeation flux of the first surface is greater than a permeation flux of the second surface.