1) slag forming route
成渣路线
2) optimum slag forming route
最佳成渣路线
3) waste print circuit board
线路板废渣
1.
The introduction of vacuum pyrolysis into the treatment of waste print circuit board(WPCB) was first proposed in this paper.
采用真空热解技术对真空下线路板废渣进行了热解动力学研究,以期为真空热解批量回收处理设备的设计提供理论依据。
4) synthesis route
合成路线
1.
Introduction to synthesis route of clopidogrel;
氯吡格雷的合成路线研究
2.
Various synthesis routes of 2-chloronicotinic acid reported by big companies were mainly described and their advantages,disadvantages were discussed.
介绍了中间体2-氯烟酸的研究进展,重点对目前国内外各大公司开发的2-氯烟酸主要合成路线的优缺点进行了评述,概括了其应用状况,并提出了今后2-氯烟酸的合成方向。
3.
This paper reviewed several kinds of synthesis routes and preparation technologies of backbone chain polyimide foams,involving foaming agents,foaming methods and control modes for foam structure.
综述了主链聚酰亚胺泡沫塑料的各种合成路线和制备工艺中的发泡剂、发泡方法及泡孔结构的控制方法,分析对比了不同合成路线和制备工艺的技术特点;并介绍了侧链型聚酰亚胺泡沫塑料以及聚酰亚胺纳米泡沫塑料的合成路线和制备工艺。
5) synthetic route
合成路线
1.
Graphical synthetic route of Ceftezole Sodium;
头孢替唑钠合成路线图解
2.
Based on the designing principle of green synthetic route,several synthetic routes for synthesizing sucrose methyl fumarate are discussed from using raw material,selecting assistants such as catalyst and solvent, the probable technical process,and so on.
基于绿色有机合成路线的设计原则,从原料的选用、催化剂及溶剂等助剂的选择、工艺过程等方面探讨了反丁烯二酸蔗糖甲酯的可能合成路线,并通过初步实验,确定了较优的反丁烯二酸蔗糖甲酯合成路线。
6) Synthetic Routes
合成路线
1.
Two primary synthetic routes of sumatriptan, including indole ring formation way as well as its development, and synthetic methods of using 5-bromoindole as the starting material were reviewed in this article.
本文列举了它的两大类合成路线,一类是吲哚成环法,以及这一类方法的进展,另一类是以5-溴吲哚为起始原料的合成法,并指出各条合成路线的优缺点。
2.
Focused on the synthetic routes and synthetic conditions of D-α-aminoadipate.
α-氨基己二酸及其衍生物在医药、农药和食品领域已有着很重要的作用,且由于结构相似,D-α-氨基己二酸的合成路线也适用于开发D-谷氨酸、D-天冬氨酸等。
补充资料:成渣性
分子式:
分子量:
CAS号:
性质:煤或焦炭在制气或燃烧过程中形成炉渣的性能。与炉渣的熔点有密切的关系。决定于炉渣中主要成分的比值,比值愈大,熔点愈高。熔点低于1200℃的可认为是易熔炉渣,在1200~1350℃的是可熔炉渣,在1350-1500℃的是高熔点炉渣(灰分)。易熔炉渣会在炉栅上形成堵塞现象,使制气或燃烧过程发生困难。
分子量:
CAS号:
性质:煤或焦炭在制气或燃烧过程中形成炉渣的性能。与炉渣的熔点有密切的关系。决定于炉渣中主要成分的比值,比值愈大,熔点愈高。熔点低于1200℃的可认为是易熔炉渣,在1200~1350℃的是可熔炉渣,在1350-1500℃的是高熔点炉渣(灰分)。易熔炉渣会在炉栅上形成堵塞现象,使制气或燃烧过程发生困难。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条