A high pulp content nonwoven composite fabric is disclosed. The composite fabric contains 1) from more than about 0 to less than about 30 percent, by weight, of a nonwoven layer of conjugate spun filaments, the filaments containing at least one low-softening point component and at least one high-sof
A high pulp content nonwoven composite fabric is disclosed. The composite fabric contains 1) from more than about 0 to less than about 30 percent, by weight, of a nonwoven layer of conjugate spun filaments, the filaments containing at least one low-softening point component and at least one high-softening point component and having at least some exterior surfaces of the filaments composed of at least one low-softening point component; 2) more than about 70 percent, by weight, of pulp fibers; and 3) regions in which the low-softening point component at the exterior surfaces of the filaments is fused to at least a portion of the fibrous component. This high pulp content composite nonwoven fabric may be used as a heavy duty wiper or as a fluid distribution material, cover material, and/or absorbent material in an absorbent personal care product. Also disclosed is a method of making the high pulp content nonwoven composite fabric.
대표청구항▼
1. A high pulp content hydraulically entangled nonwoven composite fabric comprising:from more than about 0 to less than about 30 percent, by weight, of a nonwoven layer of conjugate spun filaments, the filaments comprising at least one low-softening point component and at least one high-softening po
1. A high pulp content hydraulically entangled nonwoven composite fabric comprising:from more than about 0 to less than about 30 percent, by weight, of a nonwoven layer of conjugate spun filaments, the filaments comprising at least one low-softening point component and at least one high-softening point component and having at least some exterior surfaces of the filaments composed of at least one low-softening point component;more than about 70 percent, by weight, of a fibrous component consisting of pulp fibers; andregions in which the low-softening point component at the exterior surfaces of the filaments is noncompressively fused to at least a portion of the fibrous component. 2. The nonwoven composite fabric of claim 1 comprising from about 5 to about 25 percent, by weight of a nonwoven layer of conjugate spun filaments and more than about 70 percent, by weight, of a fibrous component consisting of pulp fibers. 3. The nonwoven composite fabric of claim 1 comprising from about 10 to about 25 percent, by weight of a nonwoven layer of conjugate spun filaments and more than about 70 percent, by weight, of a fibrous component consisting of pulp fibers. 4. The nonwoven composite fabric of claim 1 having a basis weight of from about 20 to about 200 grams per square meter. 5. The nonwoven composite fabric of claim 1, wherein the nonwoven layer of conjugate spun filaments comprises conjugate spunbond filaments having a core section and a sheath section such that the sheath section has at least some exterior surfaces composed of at least one low-softening point component. 6. The nonwoven composite fabric of claim 1, wherein the nonwoven layer of conjugate spun filaments comprises conjugate spunbond filaments having side-by-side configuration such that the filaments have at least some exterior surfaces composed of at least one low-softening point component. 7. The nonwoven composite fabric of claim 1, wherein the nonwoven layer of conjugate spun filaments comprises conjugate spunbond filaments including from about 20 to about 85 percent, by weight, of the high-softening point component and from about 15 to about 80 percent, by weight, of the low-softening point component. 8. The nonwoven composite fabric of claim 7, wherein the nonwoven layer of conjugate spun filaments comprises conjugate spunbond filaments including from about 40 to about 75 percent, by weight, of the high-softening point component and from about 25 to about 60 percent, by weight, of the low-softening point component. 9. The nonwoven composite fabric of claim 1, wherein the high-softening point component is selected from polyesters, polyamides and high-softening point polyolefins. 10. The nonwoven composite fabric of claim 1, wherein the low-softening point component is selected from low-softening point polyolefins. 11. The nonwoven composite fabric of claim 1 wherein the pulp fibers are selected from the group consisting of virgin hardwood pulp fibers, virgin softwood pulp fiber, secondary fibers, and mixtures of the same. 12. The nonwoven composite fabric of claim 11 wherein the pulp fibers are mixture of more than 50 percent, by weight, low-average fiber length pulp and less than about 50 percent, by weight, high-average fiber length pulp. 13. The nonwoven composite fabric of claim 1 further comprising clays, straches, particulates, and superabsorbent particulates. 14. The nonwoven composite fabric of claim 1 further comprising up to about 3 percent of a de-bonding agent. 15. A wiper comprising one or more layers of the nonwoven composite fabric of claim 1, said wiper having a basis weight from about 20 gsm to about 200 gsm. 16. The wiper according to claim 15 having a basis weight from about 40 to about 150 gsm. 17. A fluid distribution component of an absorbent personal care product comprising one or more layers of the nonwoven composite fabric of claim 1, said fluid distribution component having a basis weight of from about 20 gsm to about 300 gsm. 18. The fl uid distribution component of an absorbent personal care product according to claim 17 having a basis weight from about 30 to about 170 gsm. 19. A high pulp content hydraulically entangled nonwoven composite fabric comprising:from more than about 0 to less than about 30 percent, by weight, of a nonwoven layer of conjugate spunbond filaments, the filaments comprising a polypropylene component and a polyethylene component and having at least some exterior surfaces of the filaments composed of the polyethylene component;more than about 70 percent, by weight, of a fibrous component consisting of pulp fibers; andregions in which the polyethylene component at the exterior surfaces of the filaments is noncompressively fused to at least a portion of the fibrous component. 20. The nonwoven composite fabric of claim 19, wherein the nonwoven layer of conjugate spunbond filaments contains conjugate spunbond filaments comprising from about 20 to about 55 percent, by weight, of the polypropylene component and from about 15 to about 80 percent, by weight, of the polyethylene component. 21. The nonwoven composite fabric of claim 20, wherein the nonwoven layer of conjugate spunbond filaments contains conjugate spunbond filaments comprising from about 40 to about 75 percent, by weight, of the polypropylene component and from about 25 to about 60 percent, by weight, of the polyethylene component. 22. A method of making the nonwoven composite fabric of claim 1, the method comprising:superposing a pulp fiber layer over a nonwoven layer of conjugate spun filaments, the filaments comprising at least one low-softening point component and at least one high-softening point component and having at least some exterior surfaces of the filaments composed of at least one low-softening point component;hydraulically entangling the layers to form a composite material; anddrying the composite in a manner which produces regions in which the low-softening point component at the filament surface is noncompressively fused to at least a portion of the fibrous component. 23. The method of claim 22 wherein the layers are superposed by depositing pulp fibers onto the nonwoven layer of conjugate spun filaments by dry forming or wet-forming. 24. The method of claim 22 wherein the layers are superposed by combining a coherent sheet of pulp fibers with the nonwoven layer of conjugate spun filaments. 25. The method of claim 22 wherein the coherent sheet of pip fibers is selected from the group consisting of a re-pulpable paper sheet, a re-pulpable tissue sheet, and a ball of wood pulp fibers.
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이 특허에 인용된 특허 (15)
Everhart Cherie H. (Alpharetta GA) Fischer Danial O. (Knoxville TN) Radwanski Fred R. (Roswell GA) Skoog Henry (Roswell GA), High pulp content nonwoven composite fabric.
Radwanski Fred R. (Norcross GA) Trimble Lloyd E. (Dustin OK) Smith Roland C. (Gainesville GA) Everhart Cherie H. (Alpharetta GA) Kimmitt Deborah A. (Demarest GA), Hydraulically entangled nonwoven elastomeric web and method of forming the same.
Homonoff Edward C. (Brooklyn CT) Meierhoefer Alan W. (West Hartford CT) Flint Lori B. (Westfield MA), Hydroentangled spunbonded composite fabric and process.
Kenworthy Ian (Duns GB6) Gettins Robert B. (Duns GB6) Logan Peter W. (Duns GB6) Jeambar Patrick (Pontcharra FRX) Vuillaume Andre (Ismier FRX 4), Method and apparatus for making a patterned non-woven fabric.
Radwanski Fred R. (Norcross GA) Trimble Lloyd E. (Dustin OK) Smith Roland C. (Gainesville GA) Connor Linda A. (Atlanta GA), Nonwoven fibrous hydraulically entangled elastic coform material and method of formation thereof.
Radwanski Fred R. (4310 Mary Ct. Norcross GA 30092) Trimble Lloyd E. (Rte. 2 ; Box 33A Dustin OK 74839) Chambers ; Jr. Leon E. (245 Mill Creek Pl. Roswell GA 30076) Connor Linda A. (76 Spalding Trail, Nonwoven fibrous hydraulically entangled non-elastic coform material and method of formation thereof.
Radwanski Fred R. (Norcross GA) Trimble Lloyd E. (Dustin OK) Chambers ; Jr. Leon E. (Roswell GA), Nonwoven hydraulically entangled non-elastic web and method of formation thereof.
Vuillaume Andre (63 Clos des Franquieres Biviers (Isere) FRX), Procedure and apparatus for perforating a product in sheets and perforated product obtained like this.
Everhart Cherie H. (Alpharetta GA) Fischer Daniel O. (Knoxville TN) Radwanski Fred R. (Roswell GA) Skoog Henry (Roswell GA), Process for making a high pulp content nonwoven composite fabric.
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