A steam de-wrinkling appliance includes a de-wrinkling head connected by a line to a base for producing a steam flow. The de-wrinkling head has a rear portion forming a handle and a flared front portion having a surface with one or a plurality of steam exit holes for distributing the steam flow originating from the base. The de-wrinkling head further includes a device having a movable member capable of assuming a retracted position and a restriction position. The flared front portion encloses a single steam plenum chamber that supplies steam to the steam exit hole or holes.

A steam de-wrinkling appliance includes a de-wrinkling head connected by a line to a base for producing a steam flow. The de-wrinkling head has a rear portion forming a handle and a flared front portion having a surface with one or a plurality of steam exit holes for distributing the steam flow originating from the base. The de-wrinkling head further includes a device having a movable member capable of assuming a retracted position and a restriction position. The flared front portion encloses a single steam plenum chamber that supplies steam to the steam exit hole or holes.

Methods, systems, and devices for changing cross-sectional sizes and/or shapes of flat braided sutures and the resulting constructs are disclosed. The flat braided sutures can have a textile first cross-sectional shape that can be changed to a textile second cross-sectional shape. The systems can have a heater and a die. The flat braided sutures can be movable through the heater and the die. When the flat braided sutures are in the heater, the flat braided sutures can be heatable from a textile first temperature to a textile second temperature greater than the textile first temperature. When the flat braided sutures are at the textile second temperature, the textile first cross-sectional shape can be changeable to the textile second cross-sectional shape.

A method of manufacturing a suspension member including providing a first set of yarns and a second set of yarns, combining the first set of yarns and the second set of yarns to form the suspension member, and at least partially bonding a portion of the first set of yarns and the second set of yarns together by heating the suspension member to form a first zone of the suspension member having a first tension.

A method of manufacturing a suspension member including providing a first set of yarns and a second set of yarns, combining the first set of yarns and the second set of yarns to form the suspension member, and at least partially bonding a portion of the first set of yarns and the second set of yarns together by heating the suspension member to form a first zone of the suspension member having a first tension.

Lightweight, breathable, non-woven fibrous materials and composite articles incorporating the same are provided. Composite articles are formed by merging an open, non-woven grid formed from high tenacity elongate bodies with at least one substrate, forming an article having excellent tensile strength, excellent breathability and a unique aesthetic appearance.

Lightweight, breathable, non-woven fibrous materials and composite articles incorporating the same are provided. Composite articles are formed by merging an open, non-woven grid formed from high tenacity elongate bodies with at least one substrate, forming an article having excellent tensile strength, excellent breathability and a unique aesthetic appearance.

An apparatus for recovering bulkiness of a nonwoven fabric by blowing hot air and heating the nonwoven fabric transferred in a transfer direction, includes a case member that has both end portions in the transfer direction opened; an entrance and an exit provided to openings on opposite end sides, in the transfer direction, of the case member to transfer the nonwoven fabric; and a blast opening provided on the entrance side of the case member for blasting hot air inside the case member toward the exit. Inside the case member, a sectional area at a first position downstream of the blast opening is wider than at a second position located between the blast opening and the first position. Hot air blasted from the blast opening flows downstream through the first and second positions while coming into contact with one of two faces of the nonwoven fabric inside the case member.

An apparatus for recovering bulkiness of a nonwoven fabric by blowing hot air and heating the nonwoven fabric transferred in a transfer direction, includes a case member that has both end portions in the transfer direction opened; an entrance and an exit provided to openings on opposite end sides, in the transfer direction, of the case member to transfer the nonwoven fabric; and a blast opening provided on the entrance side of the case member for blasting hot air inside the case member toward the exit. Inside the case member, a sectional area at a first position downstream of the blast opening is wider than at a second position located between the blast opening and the first position. Hot air blasted from the blast opening flows downstream through the first and second positions while coming into contact with one of two faces of the nonwoven fabric inside the case member.

A knitted textile (2) having a first layer (4) including a first yarn (12) with a thermoplastic composition integrally formed with a second layer (6) including a second yarn (14), the first yarn (12) forming an array of knitted patterns (16) defining voids (8) through the first layer (4) to the second layer (6). The first layer (4) may be heat treated to form a film. (24). Treatment of the first layer (4) may change zonal and directional tensile properties of the knitted textile (2). The Poisson's ratio of the knitted textile (2) may be greater than or equal to zero in a first axis (32) and/or a second axis (30), before and/or after treatment. Articles of apparel, including articles of footwear (26) and garments incorporating the knitted textile (2), and methods of forming the knitted textiles (2) and articles are disclosed.