A carbon fiber bundle for resin reinforcement, wherein there are adhered by 0.1-5.0 mass % to a carbon fiber bundle in which multiple lengths of filament are bundled, a mixture created by mixing an organic polymer (A) having a mass-average molecular weight of 10000 or more and an organic compound (B) the thermal reduction rate specified in claim 1 of which is 5 mass % or more or an organic compound (B) the thermal reduction rate specified in claim 2 of which is 0.8 mass % or more, the amount of the organic polymer (A) adhered being 0.1 mass % or more.

A carbon fiber bundle for resin reinforcement, wherein there are adhered by 0.1-5.0 mass % to a carbon fiber bundle in which multiple lengths of filament are bundled, a mixture created by mixing an organic polymer (A) having a mass-average molecular weight of 10000 or more and an organic compound (B) the thermal reduction rate specified in claim 1 of which is 5 mass % or more or an organic compound (B) the thermal reduction rate specified in claim 2 of which is 0.8 mass % or more, the amount of the organic polymer (A) adhered being 0.1 mass % or more.

Disclosed in certain embodiments are compositions for malodor reduction in fabric and methods for reducing malodor in fabric.

An oil for a carbon fiber precursor acrylic fiber including: a hydroxybenzoate ester (A) indicated by formula (1a); an amino-modified silicone (H) indicated by formula (3e); and an organic compound (X) which is compatible with the hydroxybenzoate ester (A), in which a residual mass rate R1 at 300° C. in thermal mass analysis in an air atmosphere is 70-100 mass % inclusive, and which is a liquid at 100° C., and a carbon fiber precursor acrylic fiber bundle to which the oil for a carbon fiber precursor acrylic fiber is adhered.

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An oil for a carbon fiber precursor acrylic fiber including: a hydroxybenzoate ester (A) indicated by formula (1a); an amino-modified silicone (H) indicated by formula (3e); and an organic compound (X) which is compatible with the hydroxybenzoate ester (A), in which a residual mass rate R1 at 300° C. in thermal mass analysis in an air atmosphere is 70-100 mass % inclusive, and which is a liquid at 100° C., and a carbon fiber precursor acrylic fiber bundle to which the oil for a carbon fiber precursor acrylic fiber is adhered.

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A combination is provided that is used as a self-healing cutting board or a storage container. Both comprise a natural fabric and a formulation. The formulation infuses the natural fabric. The formulation comprises a natural wax, which is preferably bees wax and Damar resin, and has a melting point of about 70 C to about 80 C. The cutting board can be rejuvenated by heating. Both the board and the storage containers are anti-microbial, non-skid, water resistant, re-useable and compostable.

A combination is provided that is used as a self-healing cutting board or a storage container. Both comprise a natural fabric and a formulation. The formulation infuses the natural fabric. The formulation comprises a natural wax, which is preferably bees wax and Damar resin, and has a melting point of about 70 C to about 80 C. The cutting board can be rejuvenated by heating. Both the board and the storage containers are anti-microbial, non-skid, water resistant, re-useable and compostable.

An insect barrier and repellant fabric includes a plurality of resilient spacers. Each resilient spacer has a first end secured to a first side of a fabric substrate, and a free second end extending away from the fabric substrate. A pesticide is carried by the plurality of resilient spacers. The pesticide is one of permethrin, deltamethrin or other similar chemical insect repellant. The pesticide may be carried on a surface of the resilient spacers or encapsulated within its structure, for example.

A bi-regional fiber with a cellulosic core and a wax outer sheath is disclosed. The sheath can comprise high melting temperature wax. The fiber may be produced by processing the natural fiber at temperatures less than 70° C. The fiber can be processed in a standard manner such as, for example, a Keir process which may include bleach at approximately 100° C. with a wax subsequently added at a temperature sufficient to disperse the wax over the fiber surface. The fibers are ignition resistant as measured by industry standard tests. The wax may comprise from about 0.4 to 25 percent or greater of the fiber by weight. The wax may be natural wax, synthetic or emulsified wax or blends thereof. The bi-regional fibers can be blended with other fibers including BRCF fibers to create fire resistant fabrics including clothing, blankets and household materials.

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.