1) aluminum nitride powder
氮化铝粉体
1.
Hydrolysis resistance of aluminum nitride powder modified by organic carboxylic acid;
有机羧酸改性氮化铝粉体的抗水解性能
2.
The characteristics and development of preparation techniques for aluminum nitride powder are reviewed with prospects.
阐述了氮化铝粉体可作为新型高热导率基板材料原料的理由。
2) aluminum oxynitride powder
氮氧化铝粉体
1.
Pure phase aluminum oxynitride powder has been synthesized by nano-sized raw material reaction system,and the influence of the synthetic parameters on the synthesis of the pure phase aluminum oxynitride powder has been investigated,such as the weight ratio of carbon,heating-rate,holding-time and so forth.
采用碳热还原法,利用纳米原料反应体系,并采用XRD研究合成工艺参数(碳粉的质量比、升温速率、保温时间等)对纯相氮氧化铝粉体制备的影响,在碳粉质量配比为5。
4) aluminum oxynitride nanopowder
氧氮化铝纳米粉体
5) aluminum nitride powder
氮化铝粉末
1.
Effect of starting materials on the synthesis of aluminum nitride powders by carbothermal reduction method;
原料对碳热还原法合成氮化铝粉末的影响
2.
Progress achieved in the process of aluminum nitride powder preparation by carbothermal reduc- tion method,which includes selection of raw materials and C:Al_2O_3 molar ratio,mixing of the reactants,selection of additives,calcination,velocity and pressure of nitrogen,and burning out carbon excess,is summarized.
从原料的准备、合成、二次除碳工艺三个部分介绍了碳热还原法合成氮化铝粉末的工艺过程,详细总结了该工艺几个关键步骤的研究状况,包括铝源的选择,碳源的选择,添加剂的选择,碳铝摩尔比的确定,原料的分散与混合,煅烧,氮气的流速和压力的确定,二次除碳。
6) AlN powder
氮化铝粉末
1.
Effects of calcining methods and addictives on AlN powder prepared by carbothermal reduction;
煅烧方式和添加剂对碳热还原法制备氮化铝粉末的影响
2.
The effects of aluminium sources,carbon sources and additives on AlN powder structure and morphology were studied.
采用微波碳热还原法制备了氮化铝粉末,研究了铝源、碳源和添加剂对制备氮化铝粉末的影响。
补充资料:氮化硅晶须补强氮化铝陶瓷基复合材料
分子式:
CAS号:
性质:以氧化铝陶瓷为基体,氮化硅晶须为增强体的复合材料,是一种性能优异的耐高温结构陶瓷。加入氮化硅晶须,可使氧化铝陶瓷的强度、韧性、抗热震性等得到明显的改善。在氧化铝基体中,加入20%(质量)氮化铝晶须制得的复合材料基强度提高了约50%,断裂韧性KIC达到氧化铝基体的1.5倍。这种材料可用于机械受力及耐磨部件以及作为耐热、耐腐蚀部件。
CAS号:
性质:以氧化铝陶瓷为基体,氮化硅晶须为增强体的复合材料,是一种性能优异的耐高温结构陶瓷。加入氮化硅晶须,可使氧化铝陶瓷的强度、韧性、抗热震性等得到明显的改善。在氧化铝基体中,加入20%(质量)氮化铝晶须制得的复合材料基强度提高了约50%,断裂韧性KIC达到氧化铝基体的1.5倍。这种材料可用于机械受力及耐磨部件以及作为耐热、耐腐蚀部件。
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