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    • 2. 发明公开
    • 실리카겔-탄소나노섬유 복합소재를 이용한 리튬이차전지용 음극재 및 그 제조방법
    • 用于锂二次电池的阳极材料及其制造方法
    • KR1020160104162A
    • 2016-09-05
    • KR1020150026588
    • 2015-02-25
    • 주식회사 카본나노텍
    • 강흥원이영민
    • H01M4/36H01M4/587H01M4/38H01M4/133H01M4/134C01B31/02C01B33/14
    • H01M4/366C01B32/15C01B33/14H01M4/133H01M4/134H01M4/386H01M4/587
    • 본발명은실리카겔-탄소나노섬유복합소재제조방법및 이를이용한리튬이차전지용음극재에관한것으로, 상기음극재는탄소나노섬유의표면상에실리카겔층을화학적으로결합시킨복합소재로서, 탄소나노섬유의활성화공정, 졸-겔공정및 건조분쇄공정을거쳐서완성되며, 기존의탄소나노섬유-실리콘산화물복합소재로이루어진리튬이차전지용음극재보다충방전용량이크고수명이향상되는특징을갖는다. 상기목적을달성하기위한본 발명은탄소나노섬유에포함된이물질을제거하고표면을활성화시키고관능기를접목하기위한탄소나노섬유활성화단계; 상기활성화된탄소나노섬유에실리카겔전구물질을첨가해졸-겔방식으로탄소나노섬유표면에실리카를공유결합시켜겔상의복합소재를합성하는단계; 상기겔상의실리카-탄소나노섬유복합소재를숙성건조하고분쇄하여이차전지음극재를수득하는단계의제조방법으로구성된실리카겔-탄소나노섬유음극재를제공한다.
    • 本发明涉及锂二次电池用负极材料及其制造方法。 阳极材料是通过将硅胶层与碳纳米纤维的表面化学结合而形成的复合材料。 阳极材料通过碳纳米纤维活化工艺,溶胶 - 凝胶法和干燥和研磨工艺完成,其特征在于其具有比用于锂二次电池的常规阳极材料更高的充放电能力和更长的寿命, 包括碳纳米纤维 - 氧化硅复合材料。 根据本发明,提供了一种通过使用制造方法制造的硅胶 - 碳纳米纤维阳极材料,其包括:碳纳米纤维活化步骤,去除碳纳米纤维中包含的杂质,碳纳米纤维的活化表面,以及接枝 功能组 通过向活性炭纳米纤维添加硅胶前体并通过溶胶 - 凝胶法将二氧化硅共价结合到碳纳米纤维的表面上来合成凝胶型复合材料的步骤; 并通过老化,干燥和研磨凝胶型二氧化硅 - 碳纳米纤维复合材料获得二次电池用负极材料。
    • 3. 发明授权
    • 나노융합 방탄재 및 그 제조방법
    • 纳米结构抗弹性材料及其制造方法
    • KR101348912B1
    • 2014-01-10
    • KR1020120108807
    • 2012-09-28
    • 한국생산기술연구원
    • 유의상김주혜임대영정원영윤이나권남희
    • C01B33/18C01B33/158F41H1/02
    • C01B33/14C01P2004/64F41H1/02
    • The present invention relates to nanoconvergence anti-ballistic materials and a manufacturing method thereof and, more specifically, to nanoconvergence anti-ballistic materials comprising a shear thickening fluid characterized by including two kinds of silica consisting of fumed silica and spherical silica and dispersion solvents. The present invention is able to provide the nanoconvergence anti-ballistic materials in which ballistic performance is increased by using a shear thickening fluid including two kinds of silica consisting of fumed silica and spherical silica, and lightness is improved and a manufacturing method thereof. Additionally, the present invention is able to provide low-priced nanoconvergence anti-ballistic materials by using shear thickening fluid including low-priced fumed silica and spherical silica at the same time as compared to a shear thickening fluid using single spherical silica. [Reference numerals] (AA) 1 : 5 (Fumed silica 17%); (BB) 1 : 6.2 (Fumed silica 14%); (CC) 1 : 8 (Fumed silica 11%); (DD) 60% J-Silica (Spherical silica); (EE) 20% Fumed Silica (Spherical silica)
    • 本发明涉及纳米递减反弹道材料及其制造方法,更具体地涉及包含剪切增稠流体的纳米收敛防弹材料,其特征在于包括由煅制二氧化硅和球形二氧化硅组成的两种二氧化硅和分散溶剂。 本发明能够提供通过使用包括由煅制二氧化硅和球形二氧化硅组成的两种二氧化硅的剪切增稠流体来提高弹道性能并提高亮度的纳米防反射材料及其制造方法。 此外,与使用单球形二氧化硅的剪切增稠流体相比,本发明能够通过使用包括低价气相法二氧化硅和球形二氧化硅的剪切增稠流体来提供低价纳米纳米防弹材料。 (标号)(AA)1:5(气相二氧化硅17%); (BB)1:6.2(气相二氧化硅14%); (CC)1:8(气相二氧化硅11%); (DD)60%J-二氧化硅(球形二氧化硅); (EE)20%气相二氧化硅(球形二氧化硅)
    • 5. 发明公开
    • 에어로겔 제조에 사용되는 용매치환용 용매 및 이를 사용한 소수성화된 에어로겔 제조방법
    • 用于制备空气的方法和使用该方法制备疏水性空气的方法
    • KR1020130126215A
    • 2013-11-20
    • KR1020120050127
    • 2012-05-11
    • 김병훈
    • 김병훈
    • C07C31/125C01B33/152
    • C01B33/155C01B33/14C01B33/152C01B33/1585
    • The present invention relates to a solvent for solvent substitution for producing aerogel, and a production method of hydrophobic aerogel using the same. According to the embodiment of the present invention, the production method of the hydrophobic aerogel comprises a step of substituting a solvent to the solvent for solvent substitution to obtain the aerogel containing 41-100 wt% of phentanol and 0-59 wt% of n- butanol. Using the solvent for solvent substitution by the embodiment of the present invention, the solvent for wetting gel during the production process of the aerogel is substituted or the wetting gel is hydrophobized to effectively substitute water in the wetting gel into the solvent for solvent substitution, to easily collect high purity solvent for solvent substitution, and to reuse the solvent for solvent substitution. Therefore, the loss of the solvent is minimized. The hydrophobic aerogel is obtained without a hydrophobizing process using a hydrophobizing agent, e. g. silylation agent by substituting the solvent by using the solvent for solvent substitution. [Reference numerals] (AA) Wetting gel+butanol+phentanol+silylation agent;(BB) Butanol+phentanol+silylation agent+water;(CC) Condenser;(DD) Water;(EE) Reaction device;(FF) Vacuum pump;(GG) Butanol+phentanol+silylation agent
    • 本发明涉及用于制备气凝胶的溶剂置换用溶剂及使用其的疏水性气凝胶的制造方法。 根据本发明的实施方案,疏水性气凝胶的制造方法包括将溶剂置换为溶剂进行溶剂置换的步骤,得到含有41-100重量%的安定醇和0-59重量%的正庚醇的气凝胶, 丁醇。 使用本发明实施例的溶剂进行溶剂置换,在气凝胶生产过程中用于润湿凝胶的溶剂被取代,或将润湿凝胶疏水化,以有效地将润湿凝胶中的水替代到用于溶剂置换的溶剂中, 容易收集用于溶剂置换的高纯度溶剂,并重新使用溶剂进行溶剂置换。 因此,溶剂的损失最小化。 疏水性凝胶是在疏水化方法下使用疏水化剂获得的, G。 通过使用溶剂置换溶剂进行溶剂置换来进行甲硅烷基化。 (AA)反应装置(FF)真空泵(FF)反应装置(FF)真空泵(FF)真空泵 ;(GG)丁醇+吩噻烷+甲硅烷基化剂
    • 6. 发明公开
    • 내열성이 우수한 수성 박리제 조성물 및 그 제조방법
    • 具有改进的耐热性和制造方法的水性剥离组合物
    • KR1020130083296A
    • 2013-07-22
    • KR1020120003987
    • 2012-01-12
    • 한경덕주식회사 대성아이앤티
    • 한경덕김현석
    • C09D133/04C09D7/12C09D5/20C09D5/08
    • C09D5/08C01B33/14C08K3/22C08K2003/2217C08K2003/2227C08L33/04C09D1/00C09D5/00
    • PURPOSE: An aqueous stripping composition is provided to show an excellent heterogeneity, heat resistance and rust prevention on the surface of an inorganic material, and to show no degradation of the strippability at a high temperature of 500-600deg.C. CONSTITUTION: An aqueous stripping composition with an excellent heat resistance comprises silica powder, colloidal silica, aluminum hydroxide, magnesium hydroxide, a binder and a cross-linking agent. A manufacturing method of the aqueous stripping composition with an excellent heat resistance comprises a mixture manufacturing step (S101) by mixing silica powder, colloidal silica, aluminum hydroxide, magnesium, a binder and a cross-linking agent; a heating and stirring step (S103) of stirring and heating the mixture manufactured through the mixture manufacturing step; a polymerization step (S105) of polymerizing the mixture passed through the heating and stirring step; and a monomer removal step (S107) of removing un-reacted monomer contained in the polymerized product with a vacuum decompression after cooling the polymer passed through the polymerization step. [Reference numerals] (AA) Start; (BB) End; (S101) Mixture manufacturing step; (S103) Heating and stirring step; (S105) Polymerization step; (S107) Monomer removal step
    • 目的:提供一种水性剥离组合物,以在无机材料的表面上显示出优异的异质性,耐热性和防锈性,并且在500-600℃的高温下不显示剥离性降低。 构成:具有优异的耐热性的水性剥离组合物包括二氧化硅粉末,胶体二氧化硅,氢氧化铝,氢氧化镁,粘合剂和交联剂。 具有优异的耐热性的水性剥离组合物的制造方法包括混合制造工序(S101),混合二氧化硅粉末,胶体二氧化硅,氢氧化铝,镁,粘合剂和交联剂; 搅拌和加热通过混合物制造步骤制造的混合物的加热和搅拌步骤(S103) 使通过加热和搅拌步骤的混合物聚合的聚合步骤(S105) 以及在冷却通过聚合步骤的聚合物之后,通过真空减压除去包含在聚合产物中的未反应单体的单体去除步骤(S107)。 (附图标记)(AA)开始; (BB)结束; (S101)混合物制造工序; (S103)加热搅拌步骤; (S105)聚合步骤; (S107)单体除去步骤
    • 10. 发明授权
    • 불소기 실란 처리된 고점적 코일용 코팅재의 제조방법 및 이에 의해 제조된 코팅재 그리고 그 코팅재가 피복된 코일
    • 用氟橡胶处理高密度卷绕线圈的制造方法,涂层材料和线圈涂层涂料
    • KR100945207B1
    • 2010-03-03
    • KR1020080088355
    • 2008-09-08
    • 한국전기연구원
    • 한세원강동필한동희
    • C09D183/04B82B3/00B82Y30/00
    • C09D183/04C01B33/14C07F7/0834C09D5/00C09D179/00H01B7/17
    • PURPOSE: A fluorosilane- treated high-dense coating material is provided to manufacture a coil into a monolayer without degradation of electrical and mechanical properties, to lower activation energy of the surface, and to enhance a space factor of an electric motor. CONSTITUTION: A method for manufacturing a fluorosilane- treated high-dense coating material comprises: a 1st step of producing a colloidal silica silane sol in which a stabilized reactive organic group is formed by treating the surface of colloidal silica particle with organic methylsilane and a reactive organic silane; a 2nd step of substituting the colloidal silica silane sol to an organic system by adding polyamideimide and an organic solvent in the colloidal silica silane sol of the first step; a 3rd step of uniformly dispersing a silica and steadily hybridizing the silica and the polyamideimide by adding amino-silane after adding the colloidal silica silane sol of the second step to the polyamideimide; and a 4th step of mixing the mixture after adding fluorosilane to the silica and polyamideimide hybrid material of the 3rd step.
    • 目的:提供氟硅烷处理的高致密涂层材料,以将线圈制造成单层,而不会降低电气和机械性能,降低表面的活化能,并增强电动机的空间系数。 构成:氟硅烷处理的高致密涂层材料的制造方法包括:通过用有机甲基硅烷处理胶态二氧化硅颗粒表面和反应性有机化合物,制备其中形成稳定的反应性有机基团的胶体二氧化硅硅烷溶胶的第一步骤 有机硅烷; 通过在第一步的胶体二氧化硅硅烷溶胶中加入聚酰胺酰亚胺和有机溶剂,将胶体二氧化硅硅烷溶胶代替有机体系的第二步; 第三步是在将第二步的胶体二氧化硅硅烷溶胶加入聚酰胺酰亚胺后,通过加入氨基硅烷,均匀分散二氧化硅并稳定地杂化二氧化硅和聚酰胺酰亚胺; 以及在将第三步骤的二氧化硅和聚酰胺酰亚胺混合材料加入氟硅烷之后混合该混合物的第四步骤。