1.
ULTRA-HIGH PRESSURE SINTER NANO-SiC CERAMIC
无烧结助剂SiC陶瓷的高压烧结研究
2.
Study on the Sintering of cBN-AlN Composites at the HPHT;
cBN-AlN的高温高压烧结研究
3.
Characteristic Comparison of α-Si_3N_4 and γ-Si_3N_4 Sintered under Ultra-high Pressure
α-Si_3N_4与γ-Si_3N_4超高压烧结体的性能对比
4.
FABRICATION OF SiC CERAMIC BY ULTRA-HIGH PRESSURE TECHNIQUE
纳米SiC陶瓷的超高压烧结研究(英文)
5.
The Effect of the High Pressure Sintering Process on the Microstructure and Thermoelectric Properties of CoSb_3;
高压烧结过程对CoSb_3微观结构及热电性能的影响
6.
Sintering at high pressure and high temperature and characterization of nanometer B_6O-B_4C superhard composite
纳米B_6O-B_4C超硬复合材料的高温高压烧结与表征
7.
The Theoretical Analysis and Numerical Simulation on the Residual Stresses in Thermoelectric Materials Sintering by High-pressure Method;
高压烧结热电材料残余应力分析与数值模拟
8.
High Pressure and High Temperature Sintering of Nanostructured B_6O-B_4C Superhard Composite;
纳米结构B_6O-B_4C超硬复合材料的高温高压烧结、表征与应用
9.
Fabrication of High Nb Containing TiAl Alloys by High-Energy Ball Milling and Pressureless Sintering
高能球磨与无压烧结制备高铌TiAl合金
10.
Preparation of High-purity High-density Alumina Ceramics with Low Temperature Sintering;
高纯高致密氧化铝陶瓷低温常压烧结研究
11.
Control of the Partial Oxygen Pressure of Sintering of High Frequency High B_s Mn-Zn Power Ferrites
高频高B_s MnZn功率铁氧体烧结氧分压控制
12.
, sintering is one of the critical steps in developing the applications of engineering ceramics In this paper, some normal sintering processes are outlined, while the plasma sintering and high pressure self-combustion sintering methods are highlighted.
本文在简单列举了几种普通烧结方法的同时,着重叙述了等离子烧结法和高压自燃烧结法。
13.
It has enormous technical strength and abundant producing experience.
拥有先进的反应烧结炉,高温气压烧结炉等静压压机等专业生产设备。
14.
Sintering, Structure and Properties of Nanosized ZnO under Ambient and Ultra-High Pressure;
纳米氧化锌常压/超高压下的烧结及其结构与性能
15.
Made of shaping Polytetrafluoethylene Resin by moulding in ordinary lemperature then through high heat sintering.
将聚四氟乙烯烧树脂在常温下用模压法成型后再经高温烧结制成。
16.
And the pressured strength of the product increased by using multi-material configuration.
采用复合材料结构可提高烧制成品的抗压强度。
17.
Low-temperature Nonpressurized Sintering and Performance of High-purity Er_2O_3 Target Material
高纯Er_2O_3靶材的低温无压烧结及性能研究
18.
Study on High Pressure and High Temperature Sintering of Ti-B Composites;
Ti-B体系复合材料在高温高压下的反应烧结研究