1) pyrogen
[英]['paiərəudʒin] [美]['paɪrədʒən]
热原
1.
The Effect of Repeat use of Experiment Rabbit on Sensitivity of Pyrogen;
实验兔的使用次数对热原敏感性的影响
2.
Effect of Multi-enzyme Detergent to Remove Pyrogen;
多酶清洗剂去热原效果的研究
3.
Another Novel Test for the Detection of Pyrogen in Order to Replace the Rabbit Pyrogen Test by Determination of the Release of TNF-α from THP-1 Lines;
一种替代家兔热原试验的新方法初探——检测THP-1细胞系释放的TNF-α
2) Pyrogens
热原
1.
Effect of Eliminating Pyrogens with Ultrafiltration on Quality of Chuanshentong Injection;
超滤法除热原对川参通注射液质量的影响
2.
Brief Mention of the Methods of Eliminating Pyrogens from the Intravenous Injections of Traditional Chinese Medicines;
略谈去除中药静脉注射剂中热原方法
3) Carbothermal reduction
碳热还原
1.
Analysis of carbothermal reduction of TiO_2 and extraction of titanium carbonitride from the blast furnace slag bearing titania;
TiO_2碳热还原与高炉钛渣提取碳氮化钛分析
2.
Research on synthesis of TiC by sol-gel and carbothermal reduction method;
溶胶-凝胶和碳热还原法制备碳化钛的研究
3.
Synthesis of lithium iron phospho-olivines by aqueous precipitation and carbothermal reduction;
沉淀-碳热还原联合法制备橄榄石磷酸铁锂
4) thermo-reduction
热还原
1.
Titanium production processes of thermo-reduction including Kroll process,subhalide reduction process,PRP process,Hunter process,and of molten salt electrolysis processes including electrolysis TiCl4 process,FFC Cambridge process,EMR/MSE process are briefly introduced.
本文介绍了热还原法制备金属钛的工艺,包括Kroll法、镁还原低价卤化物、PRP法及Hunter法及电解法,包括电解TiCl4法、FFC剑桥工艺、EMR/MSE等,分析了各种方法的机理及特点。
5) hydrothermal reduction
水热还原
1.
Preparation of copper nanorods and nanowires by hydrothermal reduction;
水热还原制备铜纳米棒和纳米线
2.
Investigation of the kinetics of the hydrothermal reduction of sodium chromate with starch
淀粉水热还原铬酸钠过程动力学研究
3.
Preparation of ultrafine chromia particles by hydrothermal reduction and size control was investigated.
研究了水热还原法制备超细氧化铬的工艺过程及其粒径调控。
6) aluminothermic reduction
铝热还原
1.
Effect of atmosphere on synthesis of titanium nitride in aluminothermic reduction process;
反应气氛对铝热还原氧化钛合成氮化钛的影响
2.
Using metal Al and TiO2 powders as starting materials TiN/Al2O3 composite ceramics were prepared by aluminothermic reduction of TiO2 in coke bed and a flowing nitrogen stream.
以金属铝粉和钛白粉为原料,在流动氮气和匣钵埋碳保护气氛下采用铝热还原氮化法制备了TiN/刚玉复合陶瓷。
3.
The result of thermodynamic calculation shows that the reduced products of V_2O_5 carbothermic reduction is the carbide of vanadium,the system of silicothermic reduction should add CaO,aluminothermic reduction can reach a reduc- tion rate of 99%,the reduction ability of Al is more effective than that of C and Si.
热力学计算结果表明,V_2O_5碳热还原产物是V的碳化物;硅热还原体系中需配加CaO;铝热还原可以得到99%的还原率,Al的还原能力比C和Si都要强。
补充资料:热原
分子式:
CAS号:
性质:系能够致热的微生物的尸体及其代谢产物,即细菌的一种内毒素。细菌、霉菌、病毒均可产生热原。热原最主要特性为耐热性,其为由磷脂、脂多糖和蛋白质所组成的复合物,存在于细菌的细胞和固体膜之间。脂多糖是内毒素的主要成分,具很强的热原活性。热原分子量为10×105左右。热原具耐热性、滤过性、水溶性、不挥发性。当热原被输入人体后,约0.5h后,使人发冷寒战、高热、出汗、恶心、呕吐、昏迷甚至危及生命,可于注射剂灭菌时根据其特性彻底破坏热原。
CAS号:
性质:系能够致热的微生物的尸体及其代谢产物,即细菌的一种内毒素。细菌、霉菌、病毒均可产生热原。热原最主要特性为耐热性,其为由磷脂、脂多糖和蛋白质所组成的复合物,存在于细菌的细胞和固体膜之间。脂多糖是内毒素的主要成分,具很强的热原活性。热原分子量为10×105左右。热原具耐热性、滤过性、水溶性、不挥发性。当热原被输入人体后,约0.5h后,使人发冷寒战、高热、出汗、恶心、呕吐、昏迷甚至危及生命,可于注射剂灭菌时根据其特性彻底破坏热原。
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