Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
TERAHERTZ COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
To provide a terahertz composite material and a manufacturing method therefor.SOLUTION: The present invention relates to a terahertz (Tera Hertz, THz) composite material and a manufacturing method therefor. The composite material includes following [A] or [B] as a raw material: [A] nanocrystal silica of 50 to 60%, natural silica oxide of 6 to 10%, natural silicate mineral of 4 to 8%, natural carbonate mineral of 3 to 7%, carbon allotrope of 2 to 5% and assistant binder of 6 to 10%; and [B] nanocrystal silica of 50 to 65%, natural silica oxide of 6 to 10%, natural silicate mineral of 4 to 8%, natural carbonate mineral of 3 to 7% and assistance binder of 6 to 10%. The manufacturing method comprises the steps of: 1. preparing the raw material according to the fraction; 2. sieving the raw material; 3. adding water thereto and grinding it up to micro/nanometer levels; 4. drying moisture therein; and 5. pulverizing it (pulverization).SELECTED DRAWING: Figure 4
【課題】テラヘルツ複合材料及びその製造方法の提供。【解決手段】本発明はテラヘルツ(Tera Hertz、THz)複合材料及びその製造方法に関し、前記複合材料は、以下[A]又は[B]を原料として含む:[A]50〜60%のナノクリスタル珪素、6〜10%の天然珪素酸化物、4〜8%の天然珪酸塩鉱物、3〜7%の天然炭酸塩鉱物、2〜5%の炭素同素体及び6〜10%の補助粘結剤、[B]50〜65%のナノクリスタル珪素、6〜10%の天然珪素酸化物、4〜8%の天然珪酸塩鉱物、3〜7%の天然炭酸塩鉱物及び6〜10%の補助粘結剤。前記製造方法は、1、原料を比率に従って調合し、2、ふるいにかけ、3、水を加えてマイクロ・ナノメートル化するまで研磨され、4、水分を乾燥させ、5、粉砕(粉末化)する。【選択図】図4
TERAHERTZ COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
To provide a terahertz composite material and a manufacturing method therefor.SOLUTION: The present invention relates to a terahertz (Tera Hertz, THz) composite material and a manufacturing method therefor. The composite material includes following [A] or [B] as a raw material: [A] nanocrystal silica of 50 to 60%, natural silica oxide of 6 to 10%, natural silicate mineral of 4 to 8%, natural carbonate mineral of 3 to 7%, carbon allotrope of 2 to 5% and assistant binder of 6 to 10%; and [B] nanocrystal silica of 50 to 65%, natural silica oxide of 6 to 10%, natural silicate mineral of 4 to 8%, natural carbonate mineral of 3 to 7% and assistance binder of 6 to 10%. The manufacturing method comprises the steps of: 1. preparing the raw material according to the fraction; 2. sieving the raw material; 3. adding water thereto and grinding it up to micro/nanometer levels; 4. drying moisture therein; and 5. pulverizing it (pulverization).SELECTED DRAWING: Figure 4
【課題】テラヘルツ複合材料及びその製造方法の提供。【解決手段】本発明はテラヘルツ(Tera Hertz、THz)複合材料及びその製造方法に関し、前記複合材料は、以下[A]又は[B]を原料として含む:[A]50〜60%のナノクリスタル珪素、6〜10%の天然珪素酸化物、4〜8%の天然珪酸塩鉱物、3〜7%の天然炭酸塩鉱物、2〜5%の炭素同素体及び6〜10%の補助粘結剤、[B]50〜65%のナノクリスタル珪素、6〜10%の天然珪素酸化物、4〜8%の天然珪酸塩鉱物、3〜7%の天然炭酸塩鉱物及び6〜10%の補助粘結剤。前記製造方法は、1、原料を比率に従って調合し、2、ふるいにかけ、3、水を加えてマイクロ・ナノメートル化するまで研磨され、4、水分を乾燥させ、5、粉砕(粉末化)する。【選択図】図4
TERAHERTZ COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
テラヘルツ複合材料及びその製造方法
YE YAO NAN (Autor:in) / LIN LIAN-XIN (Autor:in) / KOIZUMI KIYOTADA (Autor:in)
14.11.2019
Patent
Elektronische Ressource
Japanisch
IPC:
C04B
Kalk
,
LIME
CERAMIC COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
| Europäisches Patentamt | 2016
Composite carbon-material slice and manufacturing method therefor
| Europäisches Patentamt | 2015
MULLITE-CONTAINING SINTERED MATERIAL, MANUFACTURING METHOD THEREFOR, AND COMPOSITE SUBSTRATE
| Europäisches Patentamt | 2017
CARBON SHORT FIBER REINFORCED COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
| Europäisches Patentamt | 2018
CARBON SHORT FIBER REINFORCED COMPOSITE MATERIAL AND MANUFACTURING METHOD THEREFOR
| Europäisches Patentamt | 2018