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Disclosed is a fibrous nonwoven web material and a method of manufacture thereof. The fibrous nonwoven web material includes natural cellulose fibers, manmade cellulose fibers and synthetic fibers. The manmade cellulose fibers are preferably high crystallinity cellulose fibers. The fibrous nonwoven

Disclosed is a fibrous nonwoven web material and a method of manufacture thereof. The fibrous nonwoven web material includes natural cellulose fibers, manmade cellulose fibers and synthetic fibers. The manmade cellulose fibers are preferably high crystallinity cellulose fibers. The fibrous nonwoven web material has appreciable wet strength yet is capable of dispersing in most aqueous environments with only mild agitation. The fibrous nonwoven web material can be wet laid from an aqueous dispersion of fibers.

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What is claimed is: 1. A fibrous nonwoven web material comprising at least about 50 percent by weight natural cellulose fibers, at least about 5 percent by weight manmade high crystallinity cellulose fibers having a crystallinity of at least about 40 percent and a binder component comprising 0.5 pe

What is claimed is: 1. A fibrous nonwoven web material comprising at least about 50 percent by weight natural cellulose fibers, at least about 5 percent by weight manmade high crystallinity cellulose fibers having a crystallinity of at least about 40 percent and a binder component comprising 0.5 percent to less than 2 percent by weight of binder fibers; wherein the web material is entangled, has a dried basis weight in the range of about 30 to about 90 grams per square meter, has a wet tensile strength (for a 55 gsm basis weight) in the machine direction of at least about 160 gms/25 mm, and has a maximum flush break up time (B) of 45 seconds, and wherein the binder fibers consist of bicomponent fibers, each of the bicomponent fibers having a sheath consisting of at least one of polyethylene and polypropylene. 2. The web material of claim 1, comprising about 65 percent to about 97 percent by weight natural cellulose fibers, and about 10 percent to about 30 percent by weight high crystallinity cellulose fibers. 3. The web material of claim 1, wherein a portion of the binder fibers are activated to increase the tensile strength of the web material as compared to the web material prior to activation. 4. The web material of claim 1, having a wet tensile strength at least about 20 percent greater than the wet tensile strength of a similar web material using regenerated cellulose fibers in place of the high crystallinity cellulose fibers. 5. The web material of claim 1, wherein the high crystallinity cellulose fibers have a crystallinity of at least about 50 percent. 6. The web material of claim 1, formed by wet laying the natural cellulose fibers, the high crystallinity cellulose fibers and the binder fiber from an aqueous mixture. 7. The web material of claim 1, wherein the high crystallinity cellulose fibers have a crystallinity of at least about 58 percent, a dry tenacity of at least about 30 cN/tex and a initial wet modulus of at least about 90 (5 percent). 8. The web material of claim 1, wherein the sheet material will disperse into pieces under mild agitation in an aqueous environment having a pH in the range of about 4 to about 10. 9. A method for making a nonwoven fibrous sheet comprising: dispersing a major amount of natural cellulose fibers, a lesser amount of manmade high crystallinity cellulose fibers having a crystallinity of at least about 40 percent and a binder component comprising 0.5 percent to less than 2 percent by weight of synthetic binder fibers in a liquid dispersing media to form a furnish, the binder fibers consisting of bicomponent fibers, each of the bicomponent fibers having a sheath consisting of at least one of polyethylene and polypropylene; wet laying the furnish over a foraminous member to form a nonwoven web; hydroentangling the nonwoven web; and heating and drying the hydroentangled nonwoven web to form the sheet, wherein the sheet has a Flush Index to a state of substantially individual fibers of less than about 20 rotations and the sheet has a machine direction wet tensile strength (for a 55 gsm basis weight) of at least about 160 grams/25 mm. 10. The method of claim 9, comprising activating a portion of the synthetic binder fibers, wherein most of the synthetic binder fibers in the sheet are at least partially bonded to some of the natural cellulose fibers and high crystallinity cellulose fibers. 11. The method of claim 9, wherein the step of hydroentangling comprises hydroentangling at a total energy input in the range of about 0.005 to about 0.035 horsepower-hours per pound of nonwoven web. 12. The method of claim 9, wherein the sheet has a machine direction wet tensile strength (for a 55 gsm basis weight) of at least about 200 grams/25 mm. 13. A nonwoven sheet material, wet laid from an aqueous mixture and subsequently hydroentangled, the sheet material comprising about 50 percent to about 97 percent by weight natural cellulose pulp fibers, about 5 percent to about 40 percent by weight manmade cellulose fibers having a crystallinity of at least about 40 percent and a binder component consisting of 0.5 percent to less than 2 percent by weight of synthetic binder fibers and optionally 0.1 percent by weight to 2.0 percent by weight of a non-fiber binder, wherein the binder fibers consist of bicomponent fibers, each of the bicomponent fibers having a sheath consisting of at least one of polyethylene and polypropylene, and a portion of the binder fibers in the sheet material is at least partially bonded to some of the natural cellulose pulp fibers and manmade cellulose fibers so that the sheet material is suitable for use as a premoistened wipe and has a flush break up time to fibers of less than 300 seconds. 14. The sheet material of claim 13, wherein the manmade cellulose fibers have a crystallinity of at least 58 percent, a wet tenacity of at least 30 cN/tex and an initial wet modulus (5 percent) of at least 200. 15. The sheet material of claim 13, wherein the manmade cellulose fibers are selected from lyocell, modal rayon and spun rayon. 16. A premoistened wipe, comprising a nonwoven, hydroentangled sheet material comprised of about 50 percent to about 97 percent by weight natural cellulose pulp fibers, about 5 percent to about 40 percent by weight manmade cellulose fibers having a crystallinity of at least about 40 percent and a binder component comprising 0.5 percent to less than 2 percent by weight of synthetic binder fibers, wherein the binder fibers consist of bicomponent fibers, each of the bicomponent fibers having a sheath consisting of at least one of polyethylene and polypropylene, a portion of the binder fibers in the sheet material is at least partially bonded to some of the natural cellulose pulp fibers and manmade cellulose fibers and the wipe has a maximum flush break up time (B) of 45 seconds in water at most pH ranges. 17. The wipe of claim 16, wherein the manmade cellulose fibers have a crystallinity of at least about 45 percent. 18. The wipe of claim 16, wherein the nonwoven sheet material is impregnated with a chemical solution having a pH in the range of about 3 to about 11. 19. The wipe of claim 16 wherein the nonwoven, hydroentangled sheet material has a machine direction wet tensile strength (for a 55 gsm basis weight) of at least about 100 grams/25 mm. 20. The nonwoven web material of claim 1 wherein the binder fibers comprise at least one polymer having a melting point below 165° C. 21. The nonwoven web material of claim 1 wherein the binder fibers comprise at least one polymer having a melting point below 165° C.