Abstract: Radiation-crosslinkable hot-melt adhesives containing more than 50% of polyurethane polymers which contain at least one radiation-polymerizable reactive group. The radiation-crosslinkable hot-melt adhesive is prepared by reacting a) a reactive PU prepolymer having a particular block structure b) 20 to 95 mol % of at least one low-molecular-weight compound (B) containing a radically polymerizable double bond and a group reacting with an NCO group; c) 0 to 50 mol % of at least one compound (C) having at least one group reactive to NCO groups but no group that is polymerizable under radical conditions, with a molar mass of 32 to 5000 g/mol; d) 5 to 50 mol % of at least one radical photoinitiator (D) having a primary or secondary OH group, as well as optionally further polymers and/or auxiliary substances. The adhesives can be cured for bonding nonwoven substrates or for coating labels, tapes, films and plasters with pressure-sensitive adhesive coatings.

Abstract: A nonwoven web material that contains an elastic component is provided. The elastic component contains a crosslinked network formed from a linear block copolymer having a monoalkenyl aromatic midblock positioned between conjugated diene endblocks (e.g., butadiene-styrene-butadiene (“B-S-B”) triblock copolymer). Prior to crosslinking, such linear block copolymers have a relatively low viscosity and thus may be readily formed into a precursor elastic component that is subsequently crosslinked to achieve the desired elastic and mechanical properties. Crosslinking is typically achieved through the formation of free radicals (unpaired electrons) that link together to form a plurality of carbon-carbon covalent bonds at the conjugated diene endblocks.

Abstract: An acoustic ceiling panel for a lay-in or suspended ceiling includes a core portion, and front and rear layers covering front and rear sides, respectively, of the core portion. The air flow resistance of the core portion does not exceed about 100 MKS rayls. The air flow resistance of the front layer lies in the range of about 300 to about 800 MKS rayls. The air flow resistance of the rear layer lies in the range of about 300 to about 1200 MKS rayls. The panel would be supported on a grid suspended below a structural ceiling to form an air space therebetween.

Abstract: The present invention is generally directed to a liquid entrapping device having the capacity to absorb liquids. More particularly, the present invention is directed to a liquid entrapping device comprising an absorbent component, hydrophilic elastomeric fibrous component in fluid communication therewith, and optionally an adhesive component. The present invention is also directed to a liquid entrapping device having the capacity to absorb liquids while maintaining a suitable degree of mechanical strength. Furthermore, the present invention is generally directed to methods for making and using the foregoing devices and materials.

Abstract: Multi-phase filter media, as well as related articles, components, filter elements, and methods, are disclosed.

Abstract: A water-absorbent sheet structure comprises a structure in which an absorbent layer containing a water-absorbent resin and an adhesive is sandwiched with nonwoven fabrics from an upper side and a lower side of the absorbent layer, wherein the water-absorbent resin is contained in an amount of from 100 to 1,000 g/m2, and wherein the water-absorbent resin has a water-retention capacity of saline solution of from 15 to 50 g/g, and wherein the water-absorbent sheet structure has a peeling strength of from 0.05 to 3.0 N/7 cm. The water-absorbent sheet structure of the present invention exhibits some effects that a water-absorbent sheet structure has excellent shape retaining ability even when the structure is thin, so that the water-absorbent sheet structure does not undergo deformation of the form before liquid absorption or after the absorption, and is capable of sufficiently exhibiting absorbent properties.

Abstract: A hot melt adhesive composition that includes a non functionalized metallocene catalyzed polymer and a second polymer selected from the group including amorphous poly alpha olefins, uni-modal metallocene catalyzed polymers, hydrogenated styrenic block copolymers and combinations thereof and nonwoven and packaging articles including the same.

Abstract: In at least one embodiment, a multifunctional mat is provided comprising an interconnected network including a plurality of coextruded integrally joined strands forming a netting and a film bonded to the netting. The coextruded strands have at least three layers having three different compositions. The netting has an average kinetic coefficient ranging from 0.006 to 2.4 when measured according to ASTM D-1894 and a minimum absolute difference in adhesion temperature between the second thermoplastic composition and the other two thermoplastic compositions ranges from 10° C. to 120° C.

Abstract: Presented is a variety of products and apparatuses employing a conductive nonwoven web. Products and apparatuses include an RFID system, a radiofrequency shielding system, a flexible electronic circuit component, a heating element, an antenna, an electromagnetic energy shield, a membrane switch, a keypad, and a packaging system. In one embodiment, the conductive nonwoven web contains conductive carbon fibers in combination with pulp fibers and/or synthetic fibers. Electric pathways are formed into the conductive material using ultrasonic energy. The electric pathways can be used to produce various electronic devices.

Abstract: A planar surface covering with an outer leather layer, a stabilization layer secured to the outer leather layer by an adhesive, and a tension layer secured to the stabilization layer. The stabilization layer has a fibrous stabilization material with stabilization fibers oriented in at least two planar directions of the stabilization layer. The tension layer has a fibrous tension material with tension fibers oriented in at least two planar directions of the tension layer. The tension fibers melt at a lower temperature than the stabilization fibers, and the adhesive melts at a lower temperature than the tension fibers. In one version, the fibrous stabilization material of the stabilization layer has a thickness and fiber characteristics that create cushion attributes in the stabilization layer. In another version, the fibrous tension material of the tension layer has a thickness and fiber characteristics that create cushion attributes in the tension layer.

Abstract: A water-absorbent sheet structure comprises a structure in which an absorbent layer containing a water-absorbent resin (A) and a water-absorbent resin (B) is sandwiched with fibrous webs from an upper side and a lower side of the absorbent layer, characterized in that the water-absorbent resin (A) and the water-absorbent resin (B) are contained in a total amount of from 100 to 1,000 g/m2, and that the water-absorbent resin (A) and the water-absorbent resin (B) have the following properties: (1) the water-absorbent resin (A) having a water-retention capacity of saline solution (Ra) from 15 to 55 g/g; (2) the water-absorbent resin (B) having a water-retention capacity of saline solution (Rb) from 10 to 50 g/g; and (3) Ra and Rb mentioned above satisfies the relationship of the following formula: Ra?Rb?(g/g).

Abstract: An electroactive material, in the form of a self-supported layer, comprising: a matrix, which maintains the mechanical strength of the electroactive material; and an electroactive system, which is inserted in the matrix and comprises an electroactive organic compound (ea1+), an electroactive organic compound (ea2), a solubilization liquid (L), and ionic charges present as ionic salt or acid, wherein the electroactive compounds (ea1+ & ea2) and the ionic charges are in the solubilization liquid (L), wherein the matrix comprises a textile sheet (TS) or on a stack of sheets comprising the textile sheet (TS), and wherein the mineral fibers of the matrix and the solubilization liquid (L) have indices that are substantially equal, with a difference of at most 0.1. In addition, an electrically controllable device having variable optical properties, comprising the electroactive material.

Abstract: This electrolyte material for an electrically controllable device having variable optical/energy properties is in the form of a self-supported layer intended to be placed between two layers of electroactive material, and comprises or consists of a matrix which is capable of maintaining the mechanical strength thereof and in which are inserted ionic charges capable of allowing, under the action of a current, oxidation and reduction reactions in adjacent layers of electroactive material. The ionic charges are within the matrix in the solubilized state, solubilized by a solubilization liquid (L). The matrix is chosen to provide the percolation pathway for the ionic charges.

Abstract: A mat having a highly uniform porosity distribution is produced by consolidating 15 or more layers of melt blown webs (or the like) having different orientations. Control over the porosity is provided by using webs that exhibit a narrow, unimodal distribution of fiber diameters over the bulk of its distribution, such as in the top 80%. A compliance of the mats can be chosen by selecting a number and orientation of the webs. It is thus possible to produce mats that are good candidates for vascular grafts, for example. The uniformity of the porosity within the range of 6 ?m to 30 ?m permits seeding of the vascular graft with endothelial and smooth muscle cells. The mats have the demonstrated ability to retain, and support growth of, smooth muscle cells and endothelial cells.

Abstract: A web comprising a layer of crosslinked cellulosic fiber overlaid on and integral with at least one layer of regenerated cellulose fiber. The crosslinked cellulosic fiber can be sandwiched between two regenerated cellulose fiber layers. The regenerated cellulose can be viscose or lyocell.

Abstract: A water-absorbent sheet structure comprises a structure in which an absorbent layer comprising a water-absorbent resin and an adhesive is sandwiched with nonwoven fabrics from an upper side and a lower side of the absorbent layer, wherein the water-absorbent resin is contained in an amount of 10 g/m2 or more and less than 100 g/m2, and wherein the water-absorbent resin has a water-retention capacity of saline solution of from 35 to 80 g/g, and wherein the water-absorbent sheet structure has a peeling strength of from 0.05 to 3.0 N/7 cm.

Abstract: A barrier fabric with a nano-fibrous layer for mechanical retention of organic substances, wherein it is formed by a sandwich structure containing a basic material from unwoven fabric of “spunbond” type with areal weight of 15 to 50 g/m2 to which at least one nano-fibrous layer is arranged, selected from the group comprising a hydrophilic polymer, a hydrophobic polymer, or in the case of double-layer arrangement, a combination of the hydrophilic polymer in one layer and the hydrophobic polymer in the other layer, and where the nano-fibrous layer is equipped with a protective covering layer, and where the individual layers of the sandwich are connected to each other, and where the nano-fibrous layer used as a barrier against penetration of allergens produced by the dust mites through the upholstery material of mattresses, pillows, bedclothes or soft furnishings, is created by an organic polymer material with areal weight of 0.05 to 0.

Abstract: A pad element may include a base member, a pair of cover layers, and a plurality of insert elements. The base member defines a plurality of apertures. The cover layers are secured to opposite surfaces of the base member and extend across the apertures. The insert elements are located within the apertures and between the cover layers. As examples, the base member and the insert elements may be formed from polymer foam materials, and the cover layers may be formed from textile materials. The pad element may be utilized to attenuate impact forces and provide one or more of breathability, flexibility, a relatively low overall mass, and launderability.

Abstract: A method of producing composites useful for the formation of armor and armor sub-assembly intermediates. More particularly, improved ballistic resistant composites and a method for the production of ballistic resistant composites and armor sub-assembly intermediates from composites that have resin-poor surfaces resulting from the non-uniform impregnation polymeric binder materials in fiber layers.

Abstract: A biodegradable fiber that is formed from a thermoplastic composition that contains polylactic acid, a plasticizer, and a compatibilizer is provided. The compatibilizer includes a polymer that is modified with a polar compound that is compatible with the plasticizer and a non-polar component provided by the polymer backbone that is compatible with polylactic acid. Such functionalized polymers may thus stabilize each of the polymer phases and reduce plasticizer migration. By reducing the plasticizer migration, the composition may remain ductile and soft. Further, addition of the functionalized polymer may also promote improved bonding and initiate crystallization faster than conventional polylactic acid fibers. The polar compound includes an organic acid, an anhydride of an organic acid, an amide of an organic acid, or a combination thereof. Such compounds are believed to be more compatible with the generally acidic nature of the polylactic acid fibers.

Abstract: Cellulose filtration products comprising nonwoven lyocell fiber webs in which the fibers have a diameter of from 3 to 12 microns, the largest pore diameter of less than about 300 microns and a mean flow pore diameter of less than about 150 microns are disclosed. Multilayer nonwoven lyocell fiber webs are also disclosed which have lower mean flow pore diameters and lower pore sizes.

Abstract: The present invention provides containment liners to protect the environment from spills and leaks at oil and/or gas production sites and other sites. The containment liner comprises a first felt geotextile layer and a polymeric barrier layer embedded partially into the felt geotextile layer.

Abstract: A cellular material that can provide a unique combination of properties and characteristics for a variety of applications requiring a cellular solid that possesses one or more of the following characteristics: (1) efficient load support in one or more directions, (2) excellent mechanical impact energy absorption and vibration suppression potential, (3) high convection heat transfer throughout, (4) low pumping requirements for fluid throughput, for example in a second direction orthogonal to one or more load-bearing directions, (5) a substantially linear dependence of the Young's and shear moduli along with the tensile, compressive and shear yield strengths upon relative density (6) a potentially inexpensive textile-based synthetic approach, (7) excellent filtration potential, (8) a high surface area to volume ratio for enhanced activity as a catalyst or catalyst support (9) interconnected, open porosity for device storage, biological tissue in-growth or other functionalities requiring open space, and (10) ext

Abstract: The present invention provides a nonwoven laminate having a first composite layer and a second composite layer. Both the first composite and second composite layers contain staple fibers and substantially continuous thermoplastic fibers. The each of the first and second composite layers have a first outer surface and a second outer surface, wherein a preponderance of the fibers at the first outer surface are the substantially continuous thermoplastic fibers, and a preponderance of the fibers at the second outer surface are the staple fibers. In addition, the second outer surface of the first composite layer is adjacent said one of the first or second outer faces of the second composite layer such that the first outer surface of the first composite layer forms a first side of the nonwoven laminate.

Abstract: A stretch laminate includes a first layer including an elastomer film, the first layer having a surface, and a second layer including a nonwoven material, the second layer having a basis weight of less than about 25 gsm and a surface that is attached to the surface of the first layer. The elastomer film has a strength of an engineering tensile strength, at an engineering strain rate of about 600/s, of at least one of about greater than about 14 MPa for a plain specimen or about greater than about 7 MPa for a notched specimen. A method of making the stretch laminate and an absorbent article having at least one region defined by the stretch laminate are also provided.

Abstract: A self-adhesive fiber mat may include glass and/or polymer fibers and bi-component fibers intermixed therewith. The bi-component fibers may include a core material and an outer material surrounding the core material. The outer material may have a low melting point temperature relative to the core material that may soften when exposed to heat enabling the bi-component fiber to bond with fibers and/or surfaces adjacent to the bi-component fibers. Alternatively, the self-adhesive fiber mat may use a heat sensitive resin (bonding resin) as a binder instead of, or in addition to, the bi-component fibers. The heat sensitive resin may bind the fibers together and may also bond the self-adhesive fiber mat with an adjacent film or sheet. Bonding between the film or sheet and the self-adhesive fiber mat may occur as a result of the bi-component fibers or heat sensitive resin being exposed to heat and/or pressure.

Abstract: An absorbent article of the present invention may comprise a topsheet, an outer cover, and an absorbent core disposed therebetween. The outer cover may comprise an extrusion bonded laminate. The EBL may comprise a multi-layer coextruded elastomeric film and a nonwoven. The film may comprise a core layer, a first outer layer, and a second outer layer, wherein the core layer is between the first and second outer layers. The nonwoven may comprise fibers and/or filaments. The first outer layer may be non-adhesively joined to the nonwoven via extrusion coating. Further, the outer cover may be elastic to at least about 50% engineering strain. The nonwoven may have high chemical affinity for the first outer layer. The first outer layer may have a low chemical affinity for the core layer; and the multi-layer coextruded elastomeric film may have a basis weight no greater than about 40 gsm.

Abstract: Composite materials having favorable acoustic and vibration damping properties, while maintaining or improving other composite mechanical properties, include an interleaf layer comprising at least two different nonwoven materials in a specific sequence such that a gradient is formed in the z direction upon curing or an interleaf with a compositional gradient within its structure such that a resin interpenetration gradient is achieved upon curing. Composite materials that contain multilayered nonwoven interleaves are useful, for example, in structures found in aircrafts, such as fuselage skins, stringers and frames. Also contemplated are methods of making the composite material and the structures and aircrafts that contain the composite material.

Abstract: A primer-less coating composition for facestock comprises: a binder being a water-dispersible polymer; an ethylenically unsaturated compound which is aqueous-dispersible and miscible with or bonded to said water-dispersible polymer, wherein said ethylenically unsaturated compound is able to form a covalent bond with an ink; and a crosslinker, wherein said crosslinker is suitable for binding the coating to the facestock. The coating composition may be applied to a substrate to form a printable film. A printed film in accordance with the invention may be used in a label, for example for use on a container such as a bottle.

Abstract: A highly water pressure-resistant polyester nonwoven fabric having a water pressure resistance of 2 kPA or more and composed of a laminated nonwoven fabric structure that is integrated by thermocompressive bonding an extremely fine fiber nonwoven fabric layer in which a polyester material is mixed with 1% or more of a polyolefin material and which has a fiber diameter of 5 ?m or less, and a polyester filamentary fiber nonwoven fabric layer having a fiber diameter of 7 ?m or more. The polyester nonwoven fabric is a nonwoven fabric material appropriate to moisture-permeable waterproof sheets used for building materials and shoe materials and, moreover, to fields requiring filtering properties, for example, various packaging materials such as dry packaging materials used as packaging materials and sterilization packaging materials also required to have radiation resistance and peel strength.

Abstract: Provided in at least one embodiment is a nonwoven paper layer directly fused on one or both sides with a nonwoven fabric layer wherein one or both of the nonwoven paper and nonwoven fabric are electrically insulating.

Abstract: A sheet of an artificial leather substrate contains an upper-layer nonwoven fabric A (1) and a base nonwoven fabric B (2). The upper-layer nonwoven fabric A (1) is a wet-laid nonwoven fabric having a density of 0.30 to 0.50 g/cm3 and being produced with synthetic fibers in which the component fibers have a fineness of 0.005 to 1.1 dtex, a fiber length of 3 to 10 mm and a weight per unit area of 20 to 150 g/m2, and the base nonwoven fabric B (2) is a layer of a nonwoven fabric having a density of 0.15 g/cm3 or more and less than 0.28 g/cm3 and being produced with synthetic fibers in which the component fibers have a fineness greater than that of the component fibers of the upper-layer nonwoven fabric A and 4.5 dtex or less, a fiber length of 2 to 15 mm and a weight per unit area of 50 to 400 g/m2. The upper-layer nonwoven fabric A (1) and the base nonwoven fabric B (2) are layered, made into a single body by entanglement of the component fibers of both layers and impregnated with an elastic polymer.

Abstract: In order to produce air-laid non-woven fabrics with an adjustable strength ratio of the production direction and 90° to the production direction, two non-woven laying machines are set at an angle to the production direction.

Abstract: The present invention relates to a molded part, in particular, to an interior panel component for a motor vehicle, having a core layer comprising a mixture of natural or synthetic fibers and thermoplastic binding fibers, which are processed to form a nonwoven, and a thermoplastic cover layer, the core layer and the cover layer being fused together and the cover layer being such that the molded part has a visible surface, which is terminated by the cover layer, the visual appearance of the visible surface being at least shaped by the fibers of the core layer. The present invention furthermore relates to the manufacturing of a molded part in which the nonwoven of the core layer is warmed and pre-compressed in a contact heater, and the compressed nonwoven, together with the cover layer is introduced into a mold and recast.

Abstract: This invention relates to high surface area materials, such as nanoparticles, that are coated with metal ions. These modified nanoparticles have active sites that bind various gases and/or odorous compounds, thereby removing these compounds from a medium such as air or water. Metal ions are adsorbed onto the surface of the nanoparticle and bound strongly to the surface. By selection of the metal ion, specific gaseous compounds and/or odorous compounds can be targeted and removed efficiently and effectively from both aqueous phase and from the air. The modified nanoparticles are useful in numerous article of manufacture for industrial and consumer use.

Abstract: A stretch laminate includes a first layer including an elastomer film, the first layer having a surface, and a second layer including a nonwoven material, the second layer having a basis weight of less than about 25 gsm and a surface that is attached to the surface of the first layer. The elastomer film has a strength of an engineering tensile strength, at an engineering strain rate of about 600/s, of at least one of about greater than about 14 MPa for a plain specimen or about greater than about 7 MPa for a notched specimen. A method of making the stretch laminate and an absorbent article having at least one region defined by the stretch laminate are also provided.

Abstract: Embodiments of the invention are directed to carriers providing a primary toughening function and incorporating a secondary toughening agent therein. According to embodiments of the invention, the carrier/agent combination may be used in liquid resin infusion applications. The carrier may be any polymer-based material having a solubility characteristic in a thermosetting resin. The secondary toughening agent may be of a material such as a thermoplastic, a thermoset, a cross-linked thermoset, a rubber, a rubbery-like material or a combination thereof and may be in the form of a particle, a micro-fiber (fibril) or a fibrous network. In some embodiments, the carrier is soluble in the resin while the secondary toughening agent is insoluble in the resin when subjected to a cure cycle.

Abstract: A method of preparing a reinforcing structure for use in manufacture a pultruded part where the reinforcing structure is pulled through a pultrusion die in a continuous longitudinal pull direction. The method includes arranging a plurality of first reinforcing fibers in a transverse direction and attaching a permeable transport web of staple fibers to the first reinforcing fibers such that the portion of the first reinforcing fibers oriented in the direction transverse comprises at least 30% of a volume of materials comprising the reinforcing structure.

Abstract: A substrate for an endless belt in a papermaking machine comprising a plurality of preformed layers coated or impregnated with a polymeric or rubber material. Each preformed layer may be a textile material. At least one layer contains a matrix of preformed reinforcing components. The individual layers are first coated with a polymer resin or rubber material and then combined/stacked and cured/bonded to form the substrate of the belt.

Abstract: The present invention provides a composition for a stretchable film, which achieves a high-level balance between a high elastic modulus and a small permanent elongation, which is excellent in adhesive force when laminated with a non-woven fabric or the like, and also has good formability.

Abstract: A nonwoven fabric is provided that has biodegradability and has excellent mechanical strength and excellent texture in combination, and a fiber product containing the nonwoven fabric is provided. The biodegradable nonwoven fabric contains at least two kinds of fibers including a fiber A and a fiber B, in which the fiber A contains a first component having biodegradability, and the fiber B contains a second component having biodegradability. The nonwoven fabric contains a mixed fiber web having a mixing ratio (weight ratio) of the fiber A and the fiber B in a range of from 5/95 to 95/5. The first component contains at least one member selected from the group consisting of an aliphatic polyester and an aliphatic polyester copolymer each having a melting point that is higher than a melting point of the second component. A half crystallization time at 85 degree Celsius of the second component is longer than a half crystallization time at 85 degree Celsius of the first component.

Abstract: A nonwoven fabric laminate possesses excellent elasticity, softness, water resistance, fuzz resistance and curl resistance, and has less stickiness. The nonwoven fabric laminate includes at least one meltblown nonwoven fabric layer and mixed-fiber spunbonded nonwoven fabric layers on both surfaces of the at least one meltblown nonwoven fabric layer, the mixed-fiber spunbonded nonwoven fabric layers each comprising mixed fibers including 10 to 90 wt % of continuous fibers of a thermoplastic elastomer (A) and 90 to 10 wt % of continuous fibers of a thermoplastic resin (B) other than the thermoplastic elastomer (A) ((A)+(B)=100 wt %).

Abstract: A thermoplastic film including a microporous polymeric membrane; and a non-woven web comprising a plurality of fibers, the web being bonded to the microporous polymeric membrane, wherein the fibers comprise oxidation-protective polymer having an MFR ?2.0×102.

Abstract: The present invention relates to a waterproof material, wherein film layers are set between non-woven fabric layers, an asphalt layer is set between the film layers, and a net reinforcement layer is set within the asphalt layer.

Abstract: The present invention provides a separator for an electricity storage device that is formed by superimposing two or more fiber layers, wherein at least one or more of the fiber layers is a synthetic fiber layer that contains synthetic fibers and a synthetic resin binding agent, and also provides a method of manufacturing the same. Moreover, the present invention provides a separator for an electricity storage device that contains thermoplastic synthetic fibers A, heat-resistant synthetic fibers B, natural fibers C, and a synthetic resin-based binding agent, and also provides a method of manufacturing the same.

Abstract: An absorbent food pad is disclosed having nonwoven top and bottom layers with an equal percentage surfactant by weight. The pad provides liquid strikethrough and absorbency without drying a food product, regardless of orientation of the pad when placed on a food tray.

Abstract: A fabric, particularly for items of clothing and shoes, including: a first inner layer, to be directed toward the body of the user, which is substantially hydrophobic and breathable and suitable to direct liquid-phase and vapor-phase perspiration away from the user of an item of clothing or the like produced with the fabric, a second intermediate spacing layer, which is substantially hydrophobic and transfers the liquid-phase perspiration from the first inner layer toward a third outer layer and defines preferential passages for vapor-phase perspiration from the first layer outwardly, and a third outer layer, which is substantially hydrophilic and suitable for permeation of vapor-phase perspiration, for absorbing liquid-phase perspiration that arrives from the first layer, and for distributing the liquid-phase perspiration over a large surface thereof so that it can evaporate outwardly.

Abstract: A wall panel comprises a base layer comprising fiberglass board, an intermediate layer comprising molded fiberglass board, and a facer layer comprising glass textile. The wall panel provides consumers with greater options and flexibility in terms of room aesthetics as well as provides additional advantages over current basement finishing systems having fabric facer layers.

Abstract: A thermally fusible interlining nonwoven includes a fusing layer (A) having at least one staple fiber nonwoven containing at least 50% by weight of thermoplastic staple fibers having at least one of a melting or softening temperature in a range from 60° C. to 165° C. A layer (B) is bonded together with layer (A) and includes at least one staple fiber nonwoven or a staple fiber nonwoven fabric having staple fibers. At least 80% by weight of the staple fibers of layer (B) have at least one of a softening temperature, melting temperature and degradation temperature that is higher than or equal to 170° C.

Abstract: Water-soluble, multi-layer materials and articles made from the materials are disclosed. Methods of making and using water-soluble, multi-layer materials and articles are also disclosed.