Abstract: A method of making a mat with a textile surface and an elastomer backing is provided. The method includes mixing elastomer crumbs and a binder, depositing the crumb/binder mixture in a layer (22), placing a textile surface element (34) on the layer to form a mat assembly, and pressing the mat assembly in a press (9) while setting the binder. The elastomer crumbs are consolidated to form an elastomer backing (2) that includes voids between the elastomer crumbs, and the textile surface element is bonded to the elastomer backing to form the upper textile layer (1) of the mat.
Type:
Grant
Filed:
June 12, 2003
Date of Patent:
July 28, 2009
Assignee:
Milliken & Company
Inventors:
Peter C. Brazier, Thomas A. P. Brock, Robert C. Kerr, Bhawan Patel, Flemming Bojstrup, Patrick Morel
Abstract: A textile coated with a coating having a multiphase fluorochemical, an organic cationic material, and a sorbant polymer. A printed image is subsequently placed on the coated textile.
Type:
Grant
Filed:
October 22, 2001
Date of Patent:
June 15, 2004
Assignee:
Milliken & Company
Inventors:
Elizabeth Cates, Daniel MaBride, William Carl Kimbrell, Jr., Kirkland Vogt
Abstract: Lower body, upper body, and hood garments formed of a textile that inhibit the ability of insects or small animals to bite or sting the wearer. The textile of the garments have a base fabric and a cover fabric separated by a spacer layer. The base fabric is open to facilitate breathability. The cover fabric is sufficiently closed to inhibit insects, spiders, or other small animals from passing through the cover fabric, and sufficiently open so as not to inhibit the breathability of the textile. The spacer layer separates the base fabric from the cover fabric with sufficient distance to inhibit insects, spiders, or other small animals from probing through the textile to reach the wearer.
Abstract: A positive variable resistive yarn having a core, a sheath, and an insulator. The sheath includes distinct electrical conductors intermixed within a thermal expansive low conductive matrix. As the temperature of the yarn increases, the resistance of the sheath increases.
Abstract: A lightweight loop pile fabric having improved particle pick-up is described. In addition, a patterned loop pile fabric is described. The fabric has a plurality of multifilament loops extending from at least one of its surfaces, with at least some of the loops being teased. In one embodiment, the loops are formed from splittable multifilament yarns which are hypersplit during the manufacturing process to form teased loops. The fabrics perform particularly well in the manufacture of wiping cloths with enhanced performance characteristics. In addition, the fabrics enable the production of patterned articles having performance characteristics similar to or exceeding those of unpatterned goods. A process for making the fabrics is also described.
Type:
Grant
Filed:
January 9, 2001
Date of Patent:
December 30, 2003
Assignee:
Milliken & Company
Inventors:
Maynard Wood, Heather Jean Hayes, Michael Paul Sasser, Brian G. Morin
Abstract: The present invention relates to an airbag cushion which exhibits a low amount of seam usage (in order to attach at least two fabric panels or portions of a panel together) in correlation to an overall high amount of available inflation airspace within the cushion itself. These correlated elements are now combined for the first time in what is defined as an effective seam usage index (being the quotient of the length of overall seams on the cushions and the available inflation airspace volume). The inventive cushion must have at least one substantially straight seam and must possess an effective seam usage factor of less than about 0.11. A cushion exhibiting such a low seam usage factor and also comprising an integrated looped pocket for the disposition of an inflator can is also provided as well as an overall vehicle restraint system comprising the inventive airbag cushion.
Abstract: An elastomeric fabric woven in a leno weave, with the warp yarns being elastomeric yarns. The elastomeric warp yarns have a minor axis disposed in the direction perpendicular to the fabric surface. The fabric is calendered to reduce the thickness of the elastomeric yarns along the minor axis at the cross-over of the warp yarns in the leno weave.
Type:
Grant
Filed:
February 19, 2002
Date of Patent:
August 20, 2002
Assignee:
Milliken & Company
Inventors:
Anthony R. Waldrop, Bernhard Zeiler, Steven W. Josey