Multilayer nonwoven composite structure

US 5,145,727 A
Filed: 11/26/1990
Issued: 09/08/1992
Est. Priority Date: 11/26/1990
Status: Expired due to Term

First Claim

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1. A nonwoven composite structure having at least two melt-extruded nonwoven layers which comprises:

(A) a first layer which comprises at least a portion of a first nonwoven web; and

(B) a second layer adjacent to said first layer which comprises at least a portion of a second nonwoven web;

in which,(1) the boundary between any two adjacent melt-extruded nonwoven layers is indistinct in that fibers at or near the surfaces of such adjacent layers are significantly intermingled;

(2) the fibers of at least one of said first and second layers are prepared by melt extrusion through a die at a shear rate of from about 50 to about 30,000 sec^-1 and a throughput of no more than about 5.4 kg/cm/hour of a mixture of an additive and a thermoplastic polymer, which additive imparts to the surfaces of said fibers, as a consequence of the preferential migration of said additive to the surfaces of said fibers as they are formed, at least one characteristic which is different from the surface characteristics of fibers prepared from said thermoplastic polymer alone, said preferential migration taking place spontaneously upon the formation of said fibers without the need for a post-formation treatment of any kind;

(3) the additive present in any melt-extruded nonwoven layer does not migrate to an adjacent layer to a significant degree in use, so that the surface characteristics of each layer remain substantially as originally prepared;

(4) said thermoplastic polymer is selected from the group consisting of polyolefins, polyesters, polyetheresters, and polyamides; and

(5) said composite has been pattern bonded by the application of heat and pressure.

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Abstract

A nonwoven composite structure is provided which has at least two melt-extruded nonwoven layers:

(A) a first layer which includes at least a portion of a first nonwoven web; and

(B) a second layer which includes at least a portion of a second nonwovfen web;

in which,

(1) the boundary between any two adjacent melt-extruded nonwoven layers is indistinct in that fibers at or near the surfaces of such adjacent layers are significantly intermingled;

(2) the fibers of at least one of such first and second layers are prepared by melt extrusion through a die at a shear rate of from about 50 to about 30,000 sec^-1 and a throughput of no more than about 5.4 kg/cm/hour of a mixture of an additive and a thermoplastic polymer, which additive imparts to the surfaces of the fibers, as a consequence of the preferential migration of the additive to the surfaces of the fibers as they are formed, at least one characteristic which is different from the surface characteristics of fibers prepared from the thermoplastic polymer alone, said preferential migration taking place spontaneously upon the formation of the fibers without the need for a post-formation treatment of any kind;

(3) the additive present in any melt-extruded nonwoven layer does not migrate to an adjacent layer to a significant degree in use, so that the surface characteristics of each layer remain substantially as originally prepared; and

(4) the composite has been pattern bonded by the application of heat and pressure.

Citations

29 Claims

1. A nonwoven composite structure having at least two melt-extruded nonwoven layers which comprises:
- (A) a first layer which comprises at least a portion of a first nonwoven web; and
  
  (B) a second layer adjacent to said first layer which comprises at least a portion of a second nonwoven web;
  
  in which,(1) the boundary between any two adjacent melt-extruded nonwoven layers is indistinct in that fibers at or near the surfaces of such adjacent layers are significantly intermingled;
  
  (2) the fibers of at least one of said first and second layers are prepared by melt extrusion through a die at a shear rate of from about 50 to about 30,000 sec^-1 and a throughput of no more than about 5.4 kg/cm/hour of a mixture of an additive and a thermoplastic polymer, which additive imparts to the surfaces of said fibers, as a consequence of the preferential migration of said additive to the surfaces of said fibers as they are formed, at least one characteristic which is different from the surface characteristics of fibers prepared from said thermoplastic polymer alone, said preferential migration taking place spontaneously upon the formation of said fibers without the need for a post-formation treatment of any kind;
  
  (3) the additive present in any melt-extruded nonwoven layer does not migrate to an adjacent layer to a significant degree in use, so that the surface characteristics of each layer remain substantially as originally prepared;
  
  (4) said thermoplastic polymer is selected from the group consisting of polyolefins, polyesters, polyetheresters, and polyamides; and
  
  (5) said composite has been pattern bonded by the application of heat and pressure.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 25, 26, 27, 28, 29)
- - 2. The nonwoven composite structure of claim 1, in which said thermoplastic polymer is a polyolefin or a polyester.
  - 3. The nonwoven composite structure of claim 2, in which said thermoplastic polymer is polyethylene or polypropylene.
  - 4. The nonwoven composite structure of claim 3, in which the fibers of said at least one layer are hydrophilic.
  - 5. The nonwoven composite structure of claim 4, in which said additive is a siloxane-containing additive.
  - 6. The nonwoven composite structure of claim 5, in which said siloxane-containing additive has at least two moieties, A and B, in which:
    - (A) said additive is compatible with said thermoplastic polymer at melt extrusion temperatures but is incompatible at temperatures below melt extrusion temperatures, but each of moiety A and moiety B, if present as separate compounds, would be incompatible with said thermoplastic polymer at melt extrusion temperatures and at temperatures below melt extrusion temperatures;
      
      (B) moiety B has at least one functional group which is a poly(oxyalkylene) moiety;
      
      (C) the molecular weight of said additive is in the range of from about 400 to about 15,000; and
      
      (D) said additive is present at a level of from about 0.05 to about 15 percent by weight, based on the amount of thermoplastic polymer.
  - 7. The nonwoven composite structure of claim 3, in which the fibers of said at least one layer are alcohol repellant.
  - 8. The nonwoven composite structure of claim 7, in which said additive is a fluorocarbon compound.
  - 9. The nonwoven composite structure of claim 1, in which said first layer comprises fibers prepared by melt extrusion of a first thermoplastic polymer and said second layer comprises fibers prepared by melt extrusion of a second thermoplastic polymer.
  - 10. The nonwoven composite structure of claim 9, in which said first thermoplastic polymer and said second thermoplastic polymer are the same.
  - 11. The nonwoven composite structure of claim 1, in which said composite has been pattern bonded by the application of heat and pressure in the ranges of from about 80°
    - C. to about 180°
      
      C. and from about 150 to about 1,000 pounds per linear inch, respectively, employing a pattern with from about 10 to about 250 bonds/inch² (1-40 bonds/cm²) covering from about 5 to about 30 percent of the wipe surface area.
  - 12. The nonwoven composite structure of claim 1, in which said structure consists essentially of a center polypropylene meltblown layer sandwiched between two polypropylene spunbonded layers, in which:
    - (A) the boundaries between adjacent layers are indistinct; and
      
      (B) said meltblown layer contains an additive which renders the fibers alcohol repellant.
  - 13. The nonwoven composite structure of claim 12, in which said composite has been pattern bonded by the application of heat and pressure in the ranges of from about 80°
    - C. to about 180°
      
      C. and from about 150 to about 1,000 pounds per linear inch, respectively, employing a pattern with from about 10 to about 250 bonds/inch² (1-40 bonds/cm²) covering from about 5 to about 30 percent of the wipe surface area.
  - 14. The nonwoven composite structure of claim 1, in which said structure consists essentially of the following five layers in the order given:
    - (A) a polypropylene spunbonded layer which contains an additive which renders the fibers alcohol repellant;
      
      (B) a polypropylene meltblown layer which contains an additive which renders the fibers alcohol repellant;
      
      (C) a polypropylene meltblown layer which contains an additive which renders the fibers antistatic;
      
      (D) a polypropylene meltblown layer which contains an additive which renders the fibers alcohol repellant; and
      
      (E) a polypropylene spunbonded layer which contains an additive which renders the fibers alcohol repellant;
      
      in which the boundaries between adjacent layers are indistinct.
  - 15. The nonwoven composite structure of claim 14, in which said composite has been pattern bonded by the application of heat and pressure in the ranges of from about 80°
    - C. to about 180°
      
      C. and from about 150 to about 1,000 pounds per linear inch, respectively, employing a pattern with from about 10 to about 250 bonds/inch² (1-40 bonds/cm²) covering from about 5 to about 30 percent of the wipe surface area.
  - 16. The nonwoven composite structure of claim 1, in which said structure consists essentially of the following five layers in the order given:
    - (A) a polypropylene spunbonded layer which contains an additive which renders the fibers alcohol repellant;
      
      (B) a polypropylene meltblown layer which contains an additive which renders the fibers alcohol repellant;
      
      (C) a polypropylene meltblown layer which contains an additive which renders the fibers alcohol repellant;
      
      (D) a polypropylene meltblown layer which contains an additive which renders the fibers alcohol repellant; and
      
      (E) a polypropylene spunbonded layer which contains an additive which renders the fibers antistatic;
      
      in which the boundaries between adjacent layers are indistinct.
  - 17. The nonwoven composite structure of claim 16, in which said composite has been pattern bonded by the application of heat and pressure in the ranges of from about 80°
    - C. to about 180°
      
      C. and from about 150 to about 1,000 pounds per linear inch, respectively, employing a pattern with from about 10 to about 250 bonds/inch² (1-40 bonds/cm² ) covering from about 5 to about 30 percent of the wipe surface area.
  - 25. An article of manufacture which comprises the nonwoven composite structure of claim 1.
  - 26. An article of manufacture which comprises the nonwoven composite structure of claim 2.
  - 27. An article of manufacture which comprises the nonwoven composite structure of claim 13.
  - 28. An article of manufacture which comprises the nonwoven composite structure of claim 15.
  - 29. An article of manufacture which comprises the nonwoven composite structure of claim 17.

18. A method of preparing a nonwoven composite structure having at least two melt-extruded nonwoven layers adjacent to each other in which each melt-extruded nonwoven layer comprises at least a portion of a nonwoven web and the boundary between any two adjacent melt-extruded nonwoven layers is indistinct in that fibers at or near the surfaces of such adjacent layers are significantly intermingled, which method comprises the steps of:
- (A) sequentially melt extruding one or more additional nonwoven webs directly onto a first melt-extruded nonwoven web; and
  
  (B) pattern bonding the resulting nonwoven composite by the application of heat and pressure;
  
  in which(1) the fibers of at least one melt-extruded nonwoven layer are prepared by melt extrusion through a die at a shear rate of from about 50 to about 30,000 sec^-1 and a throughput of no more than about 5.4 kg/cm/hour of a mixture of an additive and a thermoplastic polymer, which additive imparts to the surfaces of said fibers, as a consequence of the preferential migration of said additive to the surfaces of said fibers as they are formed, at least one characteristic which is different from the surface characteristics of fibers prepared from said thermoplastic polymer alone, said preferential migration taking place spontaneously upon the formation of said fibers without the need for a post-formation treatment of any kind;
  
  (2) said thermoplastic polymer is selected from the group consisting of polyolefins, polyesters, polyetheresters, and polyamides; and
  
  (3) the additive present in any melt-extruded nonwoven layer does not migrate to an adjacent layer to a significant degree in use, so that the surface characteristics of each layer remain substantially as originally prepared.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. The method of claim 18, in which said thermoplastic polymer is a polyolefin or a polyester.
  - 20. The method of claim 19, in which said thermoplastic polymer is polyethylene or polypropylene.
  - 21. The method of claim 18, in which said first layer comprises fibers prepared by melt extrusion of a first thermoplastic polymer and said second layer comprises fibers prepared by melt extrusion of a second thermoplastic polymer.
  - 22. The method of claim 21, in which each of said first thermoplastic polymer and said second thermoplastic polymer is a polyolefin or a polyester.
  - 23. The method of claim 22, in which each of said first thermoplastic polymer and said second thermoplastic polymer is the same polyolefin or polyester.
  - 24. The method of claim 18, in which said nonwoven composite structure has been pattern bonded by the application of heat and pressure in the ranges of from about 80°
    - C. to about 180°
      
      C. and from about 150 to about 1,000 pounds per linear inch, respectively, employing a pattern with from about 1 10 to about 250 bonds/inch² (1-40 bonds/cm²) covering from about 5 to about 30 percent of the wipe surface area.

Specification

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Litigation Campaign Assessment

Current Assignee
Kimberly-Clark Worldwide Incorporated (Kimberly-Clark Corporation)
Original Assignee
Kimberly-Clark Corporation
Inventors
MacDonald, J. Gavin, Everhart, Dennis S., Nohr, Ronald S., Young, George A., Potts, David C.
Primary Examiner(s)
CANNON, JAMES

Application Number

US07/618,352
Time in Patent Office

652 Days
Field of Search

156/62.4, 156/62.6, 156/62.8, 156/308.4, 428/198, 428/286, 428/287, 428/288, 428/296, 428/302, 428/409, 15/209 R, 15/223
US Class Current

428/198
CPC Class Codes

B32B 2250/20   All layers being fibrous or...

B32B 2307/21   Anti-static

B32B 2307/728   Hydrophilic

B32B 2323/04   Polyethylene

B32B 2323/10   Polypropylene

B32B 2367/00   Polyesters, e.g. PET, i.e. ...

B32B 2377/00   Polyamides

B32B 27/08   of synthetic resin

B32B 27/32   comprising polyolefins comp...

B32B 27/34   comprising polyamides

B32B 27/36   comprising polyesters

B32B 5/022   Non-woven fabric

B32B 5/08   the fibres or filaments of ...

D04H 1/42   characterised by the use of...

D04H 1/559   the fibres being within lay...

D04H 1/56   in association with fibre f...

D04H 3/005   Synthetic yarns or filament...

D04H 3/14   with bonds between thermopl...

Y10T 428/24826   Spot bonds connect components

Y10T 428/31   Surface property or charact...

Y10T 428/31544 : Addition polymer is perhalo...

Y10T 428/31663 : As siloxane, silicone or si...

Y10T 442/614 : Strand or fiber material sp...

Y10T 442/668 : Separate nonwoven fabric la...

Y10T 442/671 : Multiple nonwoven fabric la...

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Multilayer nonwoven composite structure

First Claim

2 Assignments

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Abstract

Citations

29 Claims

Specification

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Multilayer nonwoven composite structure

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

29 Claims

Specification

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Solutions

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