1) Liquid polycarbosilane
液态聚碳硅烷
1.
Polyaluminocarbosilanes(PACS) were synthesized by reacting liquid polycarbosilane(LPCS) with aluminum acetylacetonate Al(AcAc)3 at 300, 360 and 420 ℃, respectively.
为了研究合成温度对聚铝碳硅烷(PACS)结构的影响,采用具有Si—C骨架结构的低分子量液态聚碳硅烷(LPCS)与乙酰丙酮铝[Al(AcAc)3]为原料,在300,360和420℃下分别合成了固态PACS,并对合成的PACS样品进行元素组成及结构表征。
2) Liquid polysilane
液态聚硅烷
1.
The polycarbosilane (PCS) precursor for SiC fiber was synthesized in an autoclave with liquid polysilane (LPS) , which was obtained by thermal decomposition of polydimethylsilane (PDMS).
以液态聚硅烷(LPS)为原料,首次在高温高压条件下制备了聚碳硅烷(PCS)先驱体,对其组成及结构进行了表征。
2.
The polycarbosilane (PCS) precursor for SiC fiber was synthesized in an autoclave with liquid polysilane (LPS), which was obtained by thermal decomposition of polydimethylsilane (PDMS).
以液态聚硅烷(LPS)为原料,在高压釜内反应制备了聚碳硅烷(PCS)先驱体。
3.
The polycarbosilane (PCS), the precursor of SiC fiber, was synthesized at the high temperature and under high pressure by thermal decomposition of liquid polysilane (LPS) which was obtained by thermal decomposition of polydimethylsilane (PDMS).
以聚二甲基硅烷裂解制备的液态聚硅烷(LPS)为原料,在高压釜内高温高压反应制备了聚碳硅烷(PCS)先驱体,研究了合成条件对反应终压、Si H键含量、产物产率、软化点、分子量分布及可纺性的影响。
3) polycarbosiliane solution
聚碳硅烷溶液
4) Highly branched polycarbosilane
固态聚碳硅烷
5) Polycarbosilane
聚碳硅烷
1.
The curing process for polycarbosilane fiber with cyclohexene vapor;
聚碳硅烷纤维在环己烯气氛中的不熔化处理
2.
SiC fiber with a low oxygen content prepared by polycarbosilane fiber cured in 1-hexyne vapor;
聚碳硅烷纤维在1-己炔气氛中不熔化处理制备低氧含量SiC纤维
3.
Synthesis and structure characterization of phenyl-containing polycarbosilane.;
含苯基聚碳硅烷的合成与结构分析
6) PCS
聚碳硅烷
1.
Study on the viscosity of PCS/xylene solution;
聚碳硅烷/二甲苯原液粘度特性的研究
2.
Selection of the Solvent in PCS Nanoparticle Preparation Process by Gas Antisolvent Recrystallization;
抗溶剂气体重结晶制备聚碳硅烷纳米微粒的溶剂选择
3.
Modified SiC absorbents were obtained by pyrolyzing polycarbo silane (PCS) mixed with Ni and Co nano metal powder up to 1 000℃ and in N 2 medium, and its pyrolyzation behaviors were investigated by TG and IR analysis.
在聚碳硅烷先驱体中掺混Ni、Co等纳米金属微粉 ,在N2 气氛中裂解至 10 0 0℃ ,得到改性碳化硅吸收剂。
补充资料:液态
液态
液体状态。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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