High Strength Polyethylene Fibers And Their Applications: No. 6,958,187; Yasuo Ohta, Godo Sakamoto, Tadayo Miyasaka, Takayoshi Okano, Junichi Nakahashi, Yukihiro Nomura and Takuya Konishi, assignors to Toyo Boseki Kabushiki Kaisha, Osaka, Japan.High Strength Polyethylene Fibers And Their Applications: No. 6,958,187; Yasuo Ohta, Godo Sakamoto, Tadayo Miyasaka, Takayoshi Okano, Junichi Nakahashi, Yukihiro Nomura and Takuya Konishi, assignors to Toyo Boseki Kabushiki Kaisha Kabushiki kaisha or kabushiki gaisha (株式会社 , Osaka, Japan. Filed 4/2/03. Issued 10/25/05.A net made of a high strength polyethylene fiber was recently issued a patent. The fiber comprises a high molecular weight polyethylene consisting of a repeating unit of ethylene. It has an intrinsic viscosity number of five or larger and an average strength of 22 cN/dtex or higher. The measurement of the fiber by differential scanning calorimetry Differential scanning calorimetry or DSC is a thermoanalytical technique in which the difference in the amount of heat required to increase the temperature of a sample and reference are measured as a function of temperature. (DSC (1) (Digital Signal Controller) A microcontroller and DSP combined on the same chip. It adds the interrupt-driven capabilities normally associated with a microcontroller to a DSP, which typically functions as a continuous process. See microcontroller and DSP. ) exhibits a temperature-increasing DSC curve with at least one endothermic endothermic /en·do·ther·mic/ (-ther´mik) characterized by or accompanied by the absorption of heat. en·do·ther·mic or en·do·ther·mal adj. 1. peak over a temperature region of 140[degrees]-148[degrees]C (on the low temperature side) and at least one endothermic peak over a temperature region of 148[degrees]C or higher (on the high temperature side). |
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