The present invention relates to twisted yarn obtained by twisting a plurality of carbon fiber resins which are slit from a carbon fiber resin tape in which adhesive, alumina sol, and potassium persulfate permeate between a plurality of the carbon fibers spread flatly. An open yarn is obtained by S-twisting and Z-twisting covering yarn around the periphery of the twisted yarn. A carbon fiber covered twisted yarn is obtained by winding the twisted yarn around the periphery of a core material.

The present invention relates to twisted yarn obtained by twisting a plurality of carbon fiber resins which are slit from a carbon fiber resin tape in which adhesive, alumina sol, and potassium persulfate permeate between a plurality of the carbon fibers spread flatly. An open yarn is obtained by S-twisting and Z-twisting covering yarn around the periphery of the twisted yarn. A carbon fiber covered twisted yarn is obtained by winding the twisted yarn around the periphery of a core material.

Polymeric materials are described which have a bioflavonoid coating, the bioflavonoid content of the coating comprising at least naringin and neohesperidin. The use of such coated polymeric materials is also described as well as the process for making the coated polymeric materials.

Polymeric materials are described which have a bioflavonoid coating, the bioflavonoid content of the coating comprising at least naringin and neohesperidin. The use of such coated polymeric materials is also described as well as the process for making the coated polymeric materials.

A surfactant treatment is provided that can result in a sterilization wrap that can have a bacterial filtration efficiency of at least 94 percent as determined according to ASTM F2101. The surfactant treatment includes a surfactant consisting essentially of carbon, hydrogen, and oxygen atoms. Wrapping packs in a wrap treated with said surfactant treatment in an amount ranging from greater than 0 to 2 weight percent based on the dry weight of the wrap results in the production of fewer wet packs after steam sterilization compared to when packs are wrapped with an identical wrap without said surfactant treatment. A sterilization wrap comprising a nonwoven fabric and a dried residue surfactant treatment that is essentially free of silicon, potassium, phosphorus, and sulfur is also provided, where wrapping packs to be sterilized in the surfactant treated wrap reduces the occurrence of wet packs after steam sterilization compared using an untreated wrap.

A surfactant treatment is provided that can result in a sterilization wrap that can have a bacterial filtration efficiency of at least 94 percent as determined according to ASTM F2101. The surfactant treatment includes a surfactant consisting essentially of carbon, hydrogen, and oxygen atoms. Wrapping packs in a wrap treated with said surfactant treatment in an amount ranging from greater than 0 to 2 weight percent based on the dry weight of the wrap results in the production of fewer wet packs after steam sterilization compared to when packs are wrapped with an identical wrap without said surfactant treatment. A sterilization wrap comprising a nonwoven fabric and a dried residue surfactant treatment that is essentially free of silicon, potassium, phosphorus, and sulfur is also provided, where wrapping packs to be sterilized in the surfactant treated wrap reduces the occurrence of wet packs after steam sterilization compared using an untreated wrap.

The invention discloses a durable super-hydrophobic fabric and a preparation method thereof. The preparation method comprises the following steps: soaking a fabric into a mixed solution of tetraethoxysilane and hydroxy-terminated polydimethylsiloxane; taking out the fabric and then placing it into a closed container filled with a hydrochloric acid solution and above the liquid level of the hydrochloric acid solution; reacting for 0.5-2 h under the temperature of 30-60 DEG C. to give the durable super-hydrophobic fabric. The fabric prepared according to the invention has a water drop surface static contact angle of more than 150 such that the water drop is easy to roll on the surface of the fabric, and has excellent chemical stability and mechanical durability. In addition, the preparation process is simple and pollution-free.

The invention discloses a durable super-hydrophobic fabric and a preparation method thereof. The preparation method comprises the following steps: soaking a fabric into a mixed solution of tetraethoxysilane and hydroxy-terminated polydimethylsiloxane; taking out the fabric and then placing it into a closed container filled with a hydrochloric acid solution and above the liquid level of the hydrochloric acid solution; reacting for 0.5-2 h under the temperature of 30-60 DEG C. to give the durable super-hydrophobic fabric. The fabric prepared according to the invention has a water drop surface static contact angle of more than 150 such that the water drop is easy to roll on the surface of the fabric, and has excellent chemical stability and mechanical durability. In addition, the preparation process is simple and pollution-free.

The invention concerns a novel binder system and its use for consolidating textile fabrics, as well as to products containing such consolidated textile fabrics. The materials according to the invention are suitable for the manufacture of reinforcing inserts, optionally in combination with at least one further textile fabric, for coated sarking membranes, roofing and waterproofing sheets, as textile backings or textile reinforcement in flooring, in particular in fitted carpets and PVC flooring, or in facers in wall coatings both in the interior and exterior of buildings, as well as in furniture.

The invention concerns a novel binder system and its use for consolidating textile fabrics, as well as to products containing such consolidated textile fabrics. The materials according to the invention are suitable for the manufacture of reinforcing inserts, optionally in combination with at least one further textile fabric, for coated sarking membranes, roofing and waterproofing sheets, as textile backings or textile reinforcement in flooring, in particular in fitted carpets and PVC flooring, or in facers in wall coatings both in the interior and exterior of buildings, as well as in furniture.