A nonwoven web including a multiplicity of non-respirable, polycrystalline, aluminosilicate ceramic filaments entangled to form a cohesive mat, the polycrystalline, aluminosilicate ceramic filaments having an average mullite percent of at least 75 wt. %. The cohesive mat preferably exhibits a compression resilience after 1,000 cycles at 900 C. when measured according to the Fatigue Test, of at least 30 kPa. Insulation articles including the cohesive mats or formed by chopping the ceramic mats into ceramic fibers, pollution control devices including the insulation articles, and methods of making the non-respirable, polycrystalline, aluminosilicate ceramic filaments and fibers, nonwoven webs, insulation articles, and pollution control devices, are also described.

An activated carbon fiber is obtained by activating: a polyphenylene ether fiber that contains a polyphenylene ether component having a rearrangement structure connected by a bond at an ortho-position in a repeating unit continuously bonded at a para-position; an infusibilized polyphenylene ether fiber obtained by infusibilizing the polyphenylene ether fiber; a flameproofed polyphenylene ether fiber obtained by flameproofing the polyphenylene ether fiber or the infusibilized polyphenylene ether fiber; or a carbon fiber obtained by carbonizing any of the polyphenylene ether fibers.

An activated carbon fiber is obtained by activating: a polyphenylene ether fiber that contains a polyphenylene ether component having a rearrangement structure connected by a bond at an ortho-position in a repeating unit continuously bonded at a para-position; an infusibilized polyphenylene ether fiber obtained by infusibilizing the polyphenylene ether fiber; a flameproofed polyphenylene ether fiber obtained by flameproofing the polyphenylene ether fiber or the infusibilized polyphenylene ether fiber; or a carbon fiber obtained by carbonizing any of the polyphenylene ether fibers.

Filter media, triboelectrically charged fibers thereof, and methods for the same are discussed. The filter media may include a first plurality of fibers and/or a second plurality of fibers. The first plurality of fibers may be triboelectrically charged by the second plurality of fibers. The first plurality of fibers and the second plurality of fibers may include polylactic acid fibers and acrylic acid fibers, respectively. The first plurality of fibers and the second plurality of fibers may also include acrylic fibers and polypropylene fibers, respectively. The filter media may include one or more charge additives. A method for preparing the filter media may include contacting the first plurality of fibers with the second plurality of fibers, where contacting the first and second plurality of fibers with one another triboelectrically charges the first plurality of fibers.

Filter media, triboelectrically charged fibers thereof, and methods for the same are discussed. The filter media may include a first plurality of fibers and/or a second plurality of fibers. The first plurality of fibers may be triboelectrically charged by the second plurality of fibers. The first plurality of fibers and the second plurality of fibers may include polylactic acid fibers and acrylic acid fibers, respectively. The first plurality of fibers and the second plurality of fibers may also include acrylic fibers and polypropylene fibers, respectively. The filter media may include one or more charge additives. A method for preparing the filter media may include contacting the first plurality of fibers with the second plurality of fibers, where contacting the first and second plurality of fibers with one another triboelectrically charges the first plurality of fibers.

An article and method includes a nonwoven textile forming at least part of an upper of an article of footwear and binding fibers entangled with fibers of the folded portion and the major portion, the edge being secured, at least in part, to the major surface. The nonwoven textile is comprised of fibers and has a major portion and a folded portion, the folded portion including an edge of the nonwoven textile folded over to bring the edge in contact, at least in part, with a major surface of the major portion to form a folded edge.

An article and method includes a nonwoven textile forming at least part of an upper of an article of footwear and binding fibers entangled with fibers of the folded portion and the major portion, the edge being secured, at least in part, to the major surface. The nonwoven textile is comprised of fibers and has a major portion and a folded portion, the folded portion including an edge of the nonwoven textile folded over to bring the edge in contact, at least in part, with a major surface of the major portion to form a folded edge.

A carbon-carbon composite preform including a plurality of layers including carbon fibers or carbon-precursor fibers, the layers include a first exterior layer defining a first major surface, a second exterior layer defining a second major surface, and at least one interior layer disposed between the first exterior layer and the second exterior layer, the at least one interior layer having a peripheral region that forms a portion of an outer surface of the preform. The preform includes needled fibers, where at least some needled fibers extend through two or more layers. The preform has an exterior region and a core region, where the exterior region includes at least the peripheral region of at least one interior layer. The needled fibers define a first needled fiber number density (NFND) in the exterior region and a second greater NFND in at least a portion of the core region.

A carbon-carbon composite preform including a plurality of layers including carbon fibers or carbon-precursor fibers, the layers include a first exterior layer defining a first major surface, a second exterior layer defining a second major surface, and at least one interior layer disposed between the first exterior layer and the second exterior layer, the at least one interior layer having a peripheral region that forms a portion of an outer surface of the preform. The preform includes needled fibers, where at least some needled fibers extend through two or more layers. The preform has an exterior region and a core region, where the exterior region includes at least the peripheral region of at least one interior layer. The needled fibers define a first needled fiber number density (NFND) in the exterior region and a second greater NFND in at least a portion of the core region.

A smokeless tobacco product includes smokeless tobacco and structural fibers. The structural fibers forming a network in which the smokeless tobacco is entangled. The structural fibers have a composition different from the smokeless tobacco. The tobacco-entangled fabric can have an overall oven volatiles content of at least 10 weight percent. In some embodiments, the structural fibers form a nonwoven network. In some embodiments, fibrous structures of the smokeless tobacco are entangled with the structural fibers.