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    • 3. 发明公开
    • 금속 규소로부터 직접산화법에 의한 콜로이달 실리카의제조방법
    • 通过直接氧化硅的胶体二氧化硅的制造方法
    • KR1020080114073A
    • 2008-12-31
    • KR1020070063285
    • 2007-06-26
    • 한국산업기술평가원(관리부서:요업기술원)
    • 임형미이승호이동진김대성나원균
    • C01B33/14C01B33/141
    • C01B33/141C01B33/1415
    • A silica sol manufacturing method is provided to manufacture silica sol having adequate size for their purposes by controlling the reaction time after adding weak basic material as the first catalyst and to show an excellent sphericity and a high specific surface area while a size of the silica particle is big and uniform. A silica sol manufacturing method comprises: a step for manufacturing the first dispersion solution which indicates that silicon powder is added to the distilled water(S1); a step for manufacturing the second dispersion solution which is that 0.5-60 wt% of weak basic catalyst is added to the first dispersion solution on a weight base of the silicon powder of the first dispersion solution(S2); a step for manufacturing the third dispersion solution which is that 0.5-10 wt% of strong alkali catalyst is added to the second dispersion solution on a weight base of the silicon powder of the first dispersion solution(S3); a step for filtering the third dispersion solution(S4).
    • 提供二氧化硅溶胶的制造方法,通过在加入作为第一催化剂的弱碱性物质后控制反应时间,制造出具有足够尺寸的硅溶胶,显示出优异的球形度和高的比表面积,而二氧化硅颗粒的尺寸 大而统一。 一种二氧化硅溶胶的制造方法,其特征在于,包括:向所述蒸馏水(S1)中添加硅粉末的第一分散液的制造工序。 在第一分散液(S2)的硅粉末的重量基上,向第一分散液中添加0.5〜60重量%的弱碱性催化剂的第二分散液的制造工序; 在第一分散液(S3)的硅粉末的重量基上,向第二分散液中添加0.5〜10重量%的强碱性催化剂的第三分散液的制造工序; 用于过滤第三分散溶液的步骤(S4)。
    • 4. 发明公开
    • 실리콘 박막 태양전지용 기판의 제조방법
    • 制造薄膜太阳能电池基板的方法
    • KR1020080112509A
    • 2008-12-26
    • KR1020070061009
    • 2007-06-21
    • 한국산업기술평가원(관리부서:요업기술원)
    • 최균최의석권순규
    • H01L31/0445H01L31/18
    • Y02E10/50Y02P70/521H01L31/0445H01L31/18
    • A manufacturing method of a silicon thin film board for solar cell is provided to form a p-Si layer having a big particle size in comparison with the thickness of a Si layer as the Al layer firstly is deposited on the glass substrates in spite of a low-temperature process and a Si layer is exchanged in prescribed temperature. A manufacturing method of a silicon thin film board for solar cell comprises: a step for preparing a glass substrate(10); a step for depositing a Al layer(20) on the glass substrate; a step for depositing a a-Si layer(30a) on the Al layer; a step for forming p-Si as a-Si is diffused to the Al layer and heat-treating Al in order to be diffused to the a-Si layer; and a step for etching the Al diffused to the silicon layer. In the step for depositing Al layer, the temperature of the glass substrates is in the range of 200-250‹C.
    • 提供一种用于太阳能电池的硅薄膜板的制造方法,以形成与Si层的厚度相比具有大的粒径的p-Si层,因为Al层首先沉积在玻璃基板上,尽管有 低温处理和Si层在规定温度下进行交换。 一种用于太阳能电池的硅薄膜板的制造方法,包括:制备玻璃基板(10)的步骤; 用于在所述玻璃基板上沉积Al层(20)的步骤; 在Al层上沉积a-Si层(30a)的步骤; 将形成p-Si作为a-Si的步骤扩散到Al层并对Al进行热处理以扩散到a-Si层; 以及蚀刻扩散到硅层的Al的步骤。 在Al层的沉积步骤中,玻璃基板的温度在200-250℃的范围内。
    • 5. 发明授权
    • 수재슬래그를 이용한 제강정련용 저온형 용제 조성물
    • 수재슬래그를이용한제강정련용저온형용제조성물
    • KR100875449B1
    • 2008-12-22
    • KR1020070058494
    • 2007-06-14
    • 한국산업기술평가원(관리부서:요업기술원)
    • 이종규추용식송훈이정희
    • C21C7/04
    • In the temperature of the CaF2 and equivalent or less than, it is done by purpose to build up the melting point of the slag and can improve the mobility. A low temperature solvent formation for the steel manufacture refining using the quenched blast furnace slag contains calcium aluminate based minimill refining slag 60~84 weight, the metal aluminum 8~16 weight%, and the fly ash 4~16 weight% and quenched blast furnace slag 4~12 weight%, and performs the followings: a process where it transports the minimill refining slag generating during the minimill steelmaking process and the minimill refining slag separately cools; a process of smashing the cooled minimill refining slag to the size less than 50mm; a process of pulverizing the crushed minimill refining slag as described above to the size less than 3mm; a process of selecting to the minimill refining slag exceeding with 3mm; and a process of removing the ferric oxide from the minimill refining slag less than 3mm selected in the screening process.
    • 在CaF2的温度和等于或小于该温度下,通过目的来建立熔渣的熔点并且可以改善流动性。 使用淬火高炉渣进行炼钢的低温溶剂形成物含有铝酸钙系微粉精炼渣60〜84重量%,金属铝8〜16重量%,粉煤灰4〜16重量%以及骤冷高炉 炉渣4〜12重量%,并进行以下工艺:输送微量炼钢过程中产生的微量精炼炉渣和微量精炼炉渣分别冷却的过程; 将冷却后的微量精炼渣粉碎至小于50mm的工艺; 将如上所述的粉碎的微小精炼炉渣粉碎成小于3mm的尺寸; 选择最小精炼炉渣超过3mm的过程; 以及从筛选过程中选择的小于3mm的微量精炼炉渣中除去氧化铁的过程。
    • 6. 发明授权
    • 플라이애쉬를 이용한 제강정련용 저온형 용제 조성물
    • 플라이애쉬를이용한제강정련용저온형용제조성물
    • KR100875448B1
    • 2008-12-22
    • KR1020070058493
    • 2007-06-14
    • 한국산업기술평가원(관리부서:요업기술원)
    • 이종규추용식송훈이정희
    • C21C7/076
    • Y02P10/242
    • In the temperature of the CaF2 and equivalent or less than, the melting point of the slag is built up and the mobility can be improved. The object of the invention is intended to provide the solvent considered to the environmental protection dimension by the refractory life extension and shapelessness stone solvent. A low temperature solvent composition for the steel manufacture refining using the fly ash contains calcium aluminate based minimill refining slag 72~88 weight%, the fly ash 4~12 weight% and metal aluminum 8~16 weight%. And performs the followings: a process where it transports the minimill refining slag generating during the minimill steelmaking process and the minimill refining slag separately cools; a process of smashing the cooled minimill refining slag to the size less than 50mm; a process of pulverizing the crushed minimill refining slag as described above to the size less than 3mm; a process of selecting to the minimill refining slag exceeding the minimill refining slag which the wave À is pulverized the grain size screen is used; and a process of removing the ferric oxide from the minimill refining slag less than 3mm selected in the screening process.
    • 在CaF2的温度和当量以下时,熔渣的熔点增加并且迁移率可以提高。 本发明的目的是通过耐火延寿和无定形石溶剂来提供考虑到环境保护维度的溶剂。 用于使用飞灰炼钢的低温溶剂组合物含有铝酸钙基微粉精炼渣72〜88重量%,粉煤灰4〜12重量%和金属铝8〜16重量%。 并执行以下工作:在最小炼钢过程中运输最小精炼炉渣并最小精炼炉渣分别冷却的过程; 将冷却后的微量精炼渣粉碎至小于50mm的工艺; 将如上所述的粉碎的微小精炼炉渣粉碎成小于3mm的尺寸; 选择最小精炼炉渣超过炉渣的最小精炼炉渣的过程; 被粉碎的粒度筛被使用; 以及从筛选过程中选择的小于3mm的微量精炼炉渣中除去氧化铁的过程。
    • 7. 发明公开
    • 플라이애쉬를 이용한 제강정련용 저온형 용제 조성물
    • 使用FLYASH的低温型钢的炼钢通量组成
    • KR1020080110126A
    • 2008-12-18
    • KR1020070058493
    • 2007-06-14
    • 한국산업기술평가원(관리부서:요업기술원)
    • 이종규추용식송훈이정희
    • C21C7/076
    • Y02P10/242
    • In the temperature of the CaF2 and equivalent or less than, the melting point of the slag is built up and the mobility can be improved. The object of the invention is intended to provide the solvent considered to the environmental protection dimension by the refractory life extension and shapelessness stone solvent. A low temperature solvent composition for the steel manufacture refining using the fly ash contains calcium aluminate based minimill refining slag 72~88 weight%, the fly ash 4~12 weight% and metal aluminum 8~16 weight%. And performs the followings: a process where it transports the minimill refining slag generating during the minimill steelmaking process and the minimill refining slag separately cools; a process of smashing the cooled minimill refining slag to the size less than 50mm; a process of pulverizing the crushed minimill refining slag as described above to the size less than 3mm; a process of selecting to the minimill refining slag exceeding the minimill refining slag which the wave À is pulverized the grain size screen is used; and a process of removing the ferric oxide from the minimill refining slag less than 3mm selected in the screening process.
    • 在CaF 2的温度和等于或小于的情况下,炉渣的熔点被建立起来,并且可以提高迁移率。 本发明的目的是通过耐火寿命延长和无形石膏溶剂提供考虑到环境保护尺寸的溶剂。 用于使用飞灰的炼钢制造精炼的低温溶剂组合物包含铝酸钙基微细精炼渣72〜88重量%,飞灰4〜12重量%,金属铝8〜16重量%。 并执行以下操作:其中运输在最小化炼钢过程中产生的最小化精炼渣和微细精炼渣分别冷却的过程; 将冷却的最小化精炼渣粉碎成尺寸小于50mm的过程; 将上述破碎的微细精炼渣粉碎至小于3mm的尺寸的方法; 使用超过最小化精炼渣的微细精炼渣的选择过程,其中波形粉碎成晶粒尺寸筛; 以及从筛选过程中选择的小于3mm的微细精炼渣除去氧化铁的方法。
    • 9. 发明授权
    • 금속 이온이 혼입된 알루미나-가교화 점토 및 그 제조 방법
    • 金属离子渗透 - 阴离子 - 支撑粘土及其制备方法
    • KR100869130B1
    • 2008-11-17
    • KR1020070050126
    • 2007-05-23
    • 한국산업기술평가원(관리부서:요업기술원)
    • 문지웅박선민나윤희한양수
    • C04B33/00C04B33/13
    • Alumina - pillared clay in which the metallic ion is mixed is provided to have high specific surface area and excellent porosity, a hydrophile property of a surface of an air hole, and a stability of a tramp metal and a thermal stability and to be used for catalyst carrier or pulverized body cosmetic material for moisturizing. A transparent [Al13O4(OH)24(H2O)12]^7+ solution is produced by reacting it at 60~70 °C for 8~12 hours after adding 0.4M NaOH aqueous solution to 0.4M AlCl3.6H2O aqueous solution. It is aged for 9~11 hours at the room temperature after mixing a colloidal solution manufactured by expanding clay in distilled water and the [Al13O4(OH)24(H2O)12]^7+ solution. The alumina(Al2O3) pillared clay precursor is generated by drying it at 50~70°C after filtering obtained precipitate and washing the distilled water and removing a Cl^- which is a counter ion with a non-reactive Al^3+ ion. The clay in which NH4+-Al is cross-linked is produced by treating it with NH3 steam vapor after calcining a generated alumina(Al2O3) pillared clay precursor at 350~450°C for 3~5 hours and producing alumina-pillared clay. The aqueous solution of the metallic ion prepared in advance is mixed with the clay in which the generated NH4+-Al is cross-linked. After aging it at a room temperature for 13~17 hours and filtering the obtained precipitate, it is washed by distilled water at 40~60 °C, dried at 50~400 °C for 3~5 hours, heat-treated at 300~600 °C, and alumina-pillared clay in which a metallic ion is mixed is obtained.
    • 提供了金属离子混合的氧化铝 - 柱状粘土,以具有高比表面积和优异的孔隙率,气孔表面的亲水性,流动金属的稳定性和热稳定性,并用于 催化剂载体或用于保湿的粉体化妆品。 通过在向0.4M AlCl 3·6H 2 O水溶液中加入0.4M NaOH水溶液之后,在60〜70℃下反应8〜12小时,生成透明的[Al 13 O 4(OH)24(H 2 O)12] 在蒸发水中膨胀粘土制成的胶体溶液和[Al13O4(OH)24(H2O)12] ^ 7 +溶液混合后,在室温下老化9〜11小时。 通过在过滤所得沉淀物并洗涤蒸馏水并除去具有非反应性Al 3+离子的抗衡离子的Cl - - 之后,在50〜70℃下干燥氧化铝(Al 2 O 3)柱状粘土前体。 通过在350〜450℃煅烧生成的氧化铝(Al2O3)柱状粘土前体3〜5小时后,用NH 3蒸气蒸气处理,生成氧化铝 - 柱状粘土,生成NH4 + -Al交联的粘土。 将预先制备的金属离子水溶液与所生成的NH 4 + -Al交联的粘土混合。 在室温下老化13〜17小时,过滤得到的沉淀物,用蒸馏水在40〜60℃下洗涤,在50〜400℃下干燥3〜5小时,在300〜 600℃,和其中混合有金属离子的氧化铝柱状粘土。