Carbohydrazide and Its Applications in Energetic Materials;
碳酰肼及其在含能材料中的应用
The possibility of using hydrazine hydrate and carbohydrazide to control emissions of dioxins from flue gases and incineration fly ash has been discussed in this paper,and the mechanisms have been analyzed.
探讨了肼类物质水合肼和碳酰肼抑制烟气和飞灰中二恶英向环境排放的机理和应用可能性。
In this paper,many achievements of studying on the synthesis,thermal decomposition properties and characteristics of the energetic complexes based on high-energetic compounds containing many nitrogen atoms such as carbohydrazide and 5-nitro-2,4-dihydro-3H-1,2,4-triazol-3-one(NTO) as well as tetrazole,etc.
概述了以高能多氮直链化合物如碳酰肼,富氮杂环化合物如三唑、四唑类为配体的配合物的合成、热行为以及性能的研究情况,同时简要地从分子或原子结构描述了一些其他多氮含能配体如肼、肼基甲酸甲酯等所形成的配合物的晶体结构以及热分解行为,并对含能配合物的发展方向进行了展望。
A study to measure the melting point of carbamide crystal using DSC method was carried out to observe the effects of beating velocity,sample quantity,and nitrogen gas flow rate on the crystal's melting point.
研究了用差示扫描量热仪(DSC)测定碳酰二胺晶体熔点的方法,考察了升温速率、试样量、炉体气氛流量对晶体熔点的影响。
Study on the synthesis and technology of percarbamide;
过碳酰胺的合成及工艺研究
Theoretical Study on Syntheis of Percarbamide;
过碳酰胺制备方法的理论研究
Preparation Application and prospect of percarbamide;
过碳酰胺的制备、应用及发展前景
In this article,the method of preparing percarbonyl amine with urea and hydrogen peroxide as raw materials was introduced The yield of percarbonyl amine was 70% when the mole ratio of urea and hydrogen peroxide was 2:
本文介绍以尿素和过氧化氢为原料制备过碳酰胺的方法 ,尿素与过氧化氢的投料比 (摩尔比 )为 2 :3时 ,过碳酰胺的产率最高达 70 %左右。
percarbonyl amine,hydrogen peroxide and peracetic acid.
目的比较过碳酰胺、过氧化氢、过氧乙酸等3种过氧化物消毒剂的杀菌效果。
The mononuclear chromium(Ⅲ) complex with 2-hydroxy-1-naphthaldehyde semicarbazone was synthesized and characterized by IR,UV-Vis,fluorescence spectra and single-crystal structure determination.
本文合成了2-羟基-1-萘甲醛半碳酰腙铬(Ⅲ)单核配合物,通过红外、紫外、荧光光谱和单晶X-射线衍射等方法对其结构进行了表征。
Graft polymerization of carbamide(CA)-formaldehyde(F)with humic acid(HA)from lignite and depolymerized weathered coal was inverstigated.
研究了褐煤及降解的风化煤腐植酸与碳酰胺(CA)─甲醛(F)体系的接枝聚合。
Carbamate ester has been prepared by the new method of alcoholizing carbamide.
采用碳酰胺催化醇解新方法合成氨基甲酸酯类化合物,用Sn ̄(2+)或Cu ̄+作催化剂,在选定的最佳条件下,反应产率50%~70%。