A polymeric carrier composition including a polymer synthesized from monomers selected from acrylic acids, methylacrylates and urethanes and at least one metal having an oxidation state of +1 or +2, including salts and coordination complexes thereof. The composition may be a suspension having 0.5 to 10% by weight of the polymer prepared from monomers selected from a group consisting of acrylic acids, methylacrylates and urethanes, and a viscosity less than 1,000 cps. The composition is applied to substrates, such as woven fabrics, to create metal-infused articles.

System and methods that enables fabric to be metalized and dyed to reach final colors that were previously unobtainable. The systems and methods relate to processes for controlling the color of metalized fabrics. Specifically, for some embodiments, the systems and methods relate to methods of making metalized fabrics that are lighter in color than prior metalized fabrics. Such fabrics may be printed on or dyed using lighter colors than would be possible when using prior metalized fabrics. The systems and methods herein may include dye baths and wash baths that are hotter than prior art processes.

System and methods that enables fabric to be metalized and dyed to reach final colors that were previously unobtainable. The systems and methods relate to processes for controlling the color of metalized fabrics. Specifically, for some embodiments, the systems and methods relate to methods of making metalized fabrics that are lighter in color than prior metalized fabrics. Such fabrics may be printed on or dyed using lighter colors than would be possible when using prior metalized fabrics. The systems and methods herein may include dye baths and wash baths that are hotter than prior art processes.

A textile material comprises a plurality of yarns, the yarns containing an intimate blend of dyed polyphenylene sulfide fibers and aramid fibers. The dyed polyphenylene sulfide fibers comprising a disperse dye that is distributed substantially evenly across the cross-sectional area of the fibers. A method for dyeing textile materials containing polyphenylene sulfide fibers comprises the steps of (a) providing a plurality of polyphenylene sulfide fibers and aramid fibers; (b) spinning the blend of fibers into a plurality of yarns; (c) forming the yarns into a textile material; (d) subjecting the textile material to a polyphenylene sulfide dyeing process.

A textile material comprises a plurality of dyed polyphenylene sulfide fibers comprising a disperse dye that is distributed substantially evenly across the cross-sectional area of the fibers. A method for dyeing polyphenylene sulfide fibers comprises the steps of (a) providing a textile material comprising polyphenylene sulfide fiber, (b) providing a dye liquor comprising a liquid medium and a disperse dye, (c) applying the dye liquor to the textile material, (d) heating the textile material under ambient atmosphere to a temperature sufficient to evaporate substantially all of the liquid medium from the textile material, and (e) heating the textile material under ambient atmosphere to a temperature of about 180 C. or more to fix the disperse dye to the polyphenylene sulfide fibers.

A device for color-fixing processing on textiles includes a supercritical carbon dioxide fluid unit, a fixing liquid storage tank (2) and a fixing reactor (9). The fixing liquid storage tank (2) is below the fixing reactor (9) and sealed connected by a connecting device (6). The fixing liquid storage tank (2) has a cylindrical cavity in which a fluid distributor (4) is mounted. The fluid distributor (4) is composed of several interconnected pipes which bend down with the nozzles downward, and one of the pipes is used as circulated fluid inlet (1) connected with the supercritical carbon dioxide fluid unit, and the rest of the pipes are used as circulated fluid outlets.

A device for color-fixing processing on textiles includes a supercritical carbon dioxide fluid unit, a fixing liquid storage tank (2) and a fixing reactor (9). The fixing liquid storage tank (2) is below the fixing reactor (9) and sealed connected by a connecting device (6). The fixing liquid storage tank (2) has a cylindrical cavity in which a fluid distributor (4) is mounted. The fluid distributor (4) is composed of several interconnected pipes which bend down with the nozzles downward, and one of the pipes is used as circulated fluid inlet (1) connected with the supercritical carbon dioxide fluid unit, and the rest of the pipes are used as circulated fluid outlets.

System and methods that enables fabric to be metalized and dyed to reach final colors that were previously unobtainable. The systems and methods relate to processes for controlling the color of metalized fabrics. Specifically, for some embodiments, the systems and methods relate to methods of making metalized fabrics that are lighter in color than prior metalized fabrics. Such fabrics may be printed on or dyed using lighter colors than would be possible when using prior metalized fabrics. The systems and methods herein may include dye baths and wash baths that are hotter than prior art processes.

System and methods that enables fabric to be metalized and dyed to reach final colors that were previously unobtainable. The systems and methods relate to processes for controlling the color of metalized fabrics. Specifically, for some embodiments, the systems and methods relate to methods of making metalized fabrics that are lighter in color than prior metalized fabrics. Such fabrics may be printed on or dyed using lighter colors than would be possible when using prior metalized fabrics. The systems and methods herein may include dye baths and wash baths that are hotter than prior art processes.

System and methods that enables fabric to be metalized and dyed to reach final colors that were previously unobtainable. The systems and methods relate to processes for controlling the color of metalized fabrics. Specifically, for some embodiments, the systems and methods relate to methods of making metalized fabrics that are lighter in color than prior metalized fabrics. Such fabrics may be printed on or dyed using lighter colors than would be possible when using prior metalized fabrics. The systems and methods herein may include dye baths and wash baths that are hotter than prior art processes.