1) sintering aids
烧成助剂
2) Sintering Additives
烧结助剂
1.
Activated sintering and sintering additives for silicon carbide ceramics;
碳化硅陶瓷的活化烧结与烧结助剂
2.
Effects of sintering additives of Co_2O_3 on properties of Ce_(0.8)Gd_(0.2)O_(1.9);
烧结助剂Co_2O_3对Ce_(0.8)Gd_(0.2)O_(1.9)性能的影响
3.
The choice of AlN sintering additives and five sintering technologies were analysed,namely hot pressi.
介绍AlN陶瓷的典型性能和导热机理;讨论AlN粉末的5种合成方法:铝粉直接氮化法、Al2O3碳热还原法、化学气相沉积法、溶胶?凝胶法、自蔓延高温合成法和等离子化学合成法;分析AlN烧结助剂的选择和5种烧结工艺:热压烧结、无压烧结、放电等离子烧结、微波烧结及自蔓延烧结;阐述AlN基板的制备工艺及其影响因素。
3) sintering aid
烧结助剂
1.
Influence of sintering aids on pressureless sintering of Sialon ceramics;
烧结助剂对Sialon常压烧结的影响
2.
Effect of sintering aids on reaction-bonded Si_3N_4-BN composites;
烧结助剂对反应烧结Si_3N_4-BN复合材料的影响
3.
Research progress of low-temperature sintering aids of AlN ceramic
低温烧结氮化铝陶瓷烧结助剂的研究进展
4) sintering aids
烧结助剂
1.
Experiment study on AlN ceramics low-temperature sintering aids;
氮化铝陶瓷低温烧结助剂体系的研究
2.
The influences of sintering aids Al2O3-Y2O3on sintering performance of B4C/B-Al composites were studied in vacuum carbon tube furnace under argon atmosphere at 1 850 ℃ holding 1.
5 h、真空碳管炉氩气保护条件下研究了烧结助剂Al2O3-Y2O3对B4C/B-Al复合材料烧结性能的影响。
3.
Spark plasma sintering(SPS) was applied to prepare α-Si3N4 ceramics of different controlled densities with magnesia,silicon dioxide,alumina as the sintering aids and the relationship between density of samples,the content of sintering aids and dielectric property was explored.
以MgO、Al2O3和SiO2作为烧结助剂,采用放电等离子烧结(SPS)方法制备密度可控的α-Si3N4陶瓷材料。
5) Sintering aids
助烧剂
1.
In this paper,focus on sintering aids,the sintering activation technology of titanium diboride cer.
主要从添加助烧剂和烧结技术两方面介绍了TiB2陶瓷活化烧结方法的研究进展,并分析了该技术促进材料烧结致密化的机制,同时介绍了热压烧结和放电等离子(SPS)烧结技术。
2.
TiB_2 based cermet with Fe-Ni-Ti-Al as sintering aids was fabricated by hot-pressing.
以Fe Ni Ti Al为助烧剂,用热压的方法制备了TiB2基金属陶瓷。
3.
In order to realize the overall sintering of chromic acid lanthanum heating element,it is necessary to add sintering aids in it.
为了使铬酸镧发热元件能够整体烧结,成型前在铬酸镧粉末中加入助烧剂,将收缩率调节一致。
6) additives
烧结助剂
1.
Effects of sintering additives and process on density and thermal conductivity of BeO ceramic;
烧结助剂和工艺对BeO陶瓷密度和热导率的影响
2.
Silicon nitride ceramics were prepared by hot-press sintering method using α-Si3N4 power with short chopping carbon-fiber as starting materials,Y2O3-La2O3 and LiF-MgO-SiO2 as additives,respectively.
采用Y2O3-La2O3和LiF-MgO-SiO22组烧结助剂,通过短切碳纤维增韧的方法,热压烧结制备了氮化硅陶瓷,并对所得氮化硅陶瓷的相组成、微观结构和力学性能进行了分析和讨论。
3.
The effects of additives to Si3N4 matrix layers on microstructure and properties of laminated Si3N4/BN ceramics were studied.
研究了MgO-Y2O3-Al2O3体系(相应的层状复合陶瓷试样记为A)、Y2O3-Al2O3体系(相应的层状复合陶瓷试样记为B)及La2O3-Y2O3-Al2O3体系(相应的层状复合陶瓷试样记为C)烧结助剂对Si3N4/BN层状复合陶瓷结构与性能的影响。
补充资料:二次烧成
分子式:
CAS号:
性质:陶瓷体在施釉前后各进行一次高温热处理的烧成方法。基本上有两类情况,其一是未上釉的生坯先烧一次成素坯,施釉后再烧一次。这种二次烧成工艺多用于生坯强度较低的陶瓷制品,如部分釉面砖及精陶制品等。某些工业陶瓷坯中加入较多有机增塑剂、黏结剂、分散剂等,也常采取先素烧、施釉、再烧成的方法。其二是某些半导体陶瓷,如晶界层电容器等常先采用还原气氛(如通氢或氢和氮)烧成,再涂覆晶界绝缘层膏后进行第二次烧成(氧气氛),使半导化晶粒之间形成晶界绝缘层。通常二次烧成对保证产品质量、提高合格率有利,但产品能耗有所增加。
CAS号:
性质:陶瓷体在施釉前后各进行一次高温热处理的烧成方法。基本上有两类情况,其一是未上釉的生坯先烧一次成素坯,施釉后再烧一次。这种二次烧成工艺多用于生坯强度较低的陶瓷制品,如部分釉面砖及精陶制品等。某些工业陶瓷坯中加入较多有机增塑剂、黏结剂、分散剂等,也常采取先素烧、施釉、再烧成的方法。其二是某些半导体陶瓷,如晶界层电容器等常先采用还原气氛(如通氢或氢和氮)烧成,再涂覆晶界绝缘层膏后进行第二次烧成(氧气氛),使半导化晶粒之间形成晶界绝缘层。通常二次烧成对保证产品质量、提高合格率有利,但产品能耗有所增加。
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