The present invention provides a herbal composition for treating a fabric to make the fabric insect repellent. The present invention further provides a composition for treating a fabric and a method of treating the fabric to make the fabric insect repellent. The invention also provides the various methods of treating different kinds of fabrics along with their dyeing and finishing processes to render the fabric insect repellant. The fabric becomes insect repellant up to 40 washes. The fabric becomes repellent against bed bugs of Cimex species, house dust mites of Dermatophagoides species, ticks of Ixodes species, houseflies or Musca Domestica, mosquitoes or Aedes Aegypti and harvest bugs of Trombidium species. The fabric is selected from the group consisting of a cotton fabric, a regenerated viscose cellulose fabric, a wool fabric, a silk fabric, a polyester fabric and blends thereof.

The present invention provides a herbal composition for treating a fabric to make the fabric insect repellent. The present invention further provides a composition for treating a fabric and a method of treating the fabric to make the fabric insect repellent. The invention also provides the various methods of treating different kinds of fabrics along with their dyeing and finishing processes to render the fabric insect repellant. The fabric becomes insect repellant up to 40 washes. The fabric becomes repellent against bed bugs of Cimex species, house dust mites of Dermatophagoides species, ticks of Ixodes species, houseflies or Musca Domestica, mosquitoes or Aedes Aegypti and harvest bugs of Trombidium species. The fabric is selected from the group consisting of a cotton fabric, a regenerated viscose cellulose fabric, a wool fabric, a silk fabric, a polyester fabric and blends thereof.

According to one embodiment, a fiber sheet includes a plurality of fibers. The plurality of fibers are in a closely-adhered state.

All of the following (1) to (3) are satisfied, where F1 is a tensile strength in a first direction, and F2 is a tensile strength in a second direction orthogonal to the first direction: (1) F2>F1; (2) F1 is 1 MPa or more; and (3) F2/F1 is 2 or more.

A flame-retardant composition endowed with intumescent properties which consists of an acrylic resin, a dehydrating compound, a blowing agent and, optionally, a fluorocarbon-based polymer.

A water-repellent fabric includes a base cloth and a water-repellent resin. The water-repellent resin is disposed on the base cloth, in which a method of fabricating the water-repellent resin includes the following steps. A first thermal process is performed to mix a polyol, a cross-linking agent, and a choline to form a first mixture, in which a reaction temperature of the first thermal process is between 90° C. and 120° C. A second thermal process is performed to mix the first mixture and a water repellent to form the water-repellent resin, in which the water repellent includes a hydroxyl group, an amino group, or combinations thereof, and a reaction temperature of the second thermal process is between 120° C. and 150° C.

Textile compositions comprising at least one filamentous fungus are disclosed, as are methods for making and using such textile compositions. Embodiments of the textile compositions generally include at least one of a plasticizer, a polymer, and a crosslinker, in addition to the filamentous fungus. The disclosed textile compositions are particularly useful as analogs or substitutes for conventional textile compositions, including but not limited to leather.

Disclosed herein is an electrode material comprising: a non-woven silk-fibroin mesh substrate; glycerol; and a conductive polymeric material, wherein 40-65% of the silk-fibroin in the non-woven mesh substrate is in the form of β-sheets, and the electrode material is stretchable. Also disclosed herein is a method of forming said electrode material.

Disclosed herein is an electrode material comprising: a non-woven silk-fibroin mesh substrate; glycerol; and a conductive polymeric material, wherein 40-65% of the silk-fibroin in the non-woven mesh substrate is in the form of β-sheets, and the electrode material is stretchable. Also disclosed herein is a method of forming said electrode material.

A filter element including a filter media and methods for making the same are provided. The filter element includes a support core surrounded by a tubular ring of filter media. A first end of the tubular ring of filter media is coupled to a first end cap and a second end of the tubular ring of filter media coupled to a second end cap. The tubular ring of filter media includes a carrier media layer, a coarse filter media layer, a fine filtration media layer, a water-capturing media layer, and an outer wrap.

A filter element including a filter media and methods for making the same are provided. The filter element includes a support core surrounded by a tubular ring of filter media. A first end of the tubular ring of filter media is coupled to a first end cap and a second end of the tubular ring of filter media coupled to a second end cap. The tubular ring of filter media includes a carrier media layer, a coarse filter media layer, a fine filtration media layer, a water-capturing media layer, and an outer wrap.