1) hot pressing
热压烧结
1.
TiB2 cermet containing 7wt% Fe and 3wt% Mo was fabricated by hot pressing.
实验结果表明,随着热压烧结温度升 高,材料抗弯强度、洛氏硬度出现峰值,热压烧结时间延长,抗弯强度有所下降。
2.
The effects of different doses of the raw materials in ZrO_2-B_4C-C towards the calcined and sintered products were investigated by hot pressing.
采用固相反应和热压烧结方法研究了ZrO2B4CC体系反应原料的不同掺量对产物相组成的影响规律,并对烧结体进行了物相分析、粒度分析、显微结构分析、相对密度和化学分析。
3.
SiC/SiC composites were prepared by hot pressing using nano-SiC and sub-micrometer SiC powders for matrix formation.
采用纳米SiC和亚微米SiC粉料作为基体形成原料,通过热压烧结技术制备了SiC/SiC 复合材料。
2) hot-pressing sintering
热压烧结
1.
Pressureless and hot-pressing sintering of Ce-TZP/Al_2O_3 composite ceramics;
无压及热压烧结法制备Ce-TZP/Al_2O_3复相陶瓷材料
2.
Preparation of oriented plate-like WC grains in cemented carbides by high-energy ball milling and special hot-pressing sintering;
高能球磨热压烧结制备定向排布板状WC硬质合金
3.
In-situ reaction hot-pressing sintering process of SiC/MoSi_2 composites
SiC/MoSi_2复合材料的原位反应热压烧结工艺
3) hot-press sintering
热压烧结
1.
Research on hot-press sintering process of N type thermoelectric materials ZnO;
N型热电材料ZnO热压烧结工艺研究
2.
Si_3N_4 ceramics were prepared by aligning theα-Si_3N_4 whisker in the substrate via tape casting and hot-press sintering.
利用流延成型使α-Si_3N_4晶须在基体中定向排列,并采用热压烧结技术制备了Si_3N_4陶瓷。
3.
Ti_3Al/TiC+ZrO_2 composites were prepared by mechanical alloying and hot-press sintering.
采用机械合金化和热压烧结制备了Ti3Al/TiC+ZrO2复合材料。
4) hot-pressing
热压烧结
1.
Results show that the NASICON ceramics sintered by hot-pressing process have higher relative densities and better crystallization behavior than those sampl.
结果表明,相对于常压烧结试样,热压烧结试样具有较高的致密度和较好的结晶性能;热压烧结试样NASI-CON(x=2。
2.
The 50Ti/HA biocomposite was fabricated by hot-pressing technique.
通过热压烧结的方法制备出50Ti/HA生物复合材料,对其组织结构及其在模拟体液中的生物活性进行了研究。
3.
The processing of synthesizing nano Y-TZP materials by hot-pressing was investigated.
本文研究了热压烧结制备纳米Y-TZP材料的过程。
5) hot pressing sintering
热压烧结
1.
Beside the raw materials and formulation,the quality of diamond segments depend on the hot pressing sintering techniques and the quality of graphite mould.
人造金刚石锯片的刀头是采用粉末冶金工艺来制作的,其刀头的质量性能除了取决于原材料的选择与配比,还取决于热压烧结工艺以及石墨模具的性能。
2.
Silicon carbide particles/copper (SiCr/Cu) composites were prepared by hot pressing sintering with electric resistance heating.
用电阻热压烧结法制备了碳化硅颗粒/铜(SiC_p/Cu)复合材料。
3.
LaB_(6)ZrB_(2) composite powders with different content of ZrB_(2) were synthesized by carbon thermo-reduction method and the corresponding polycrystalline composites were fabricated by hot pressing sintering method.
通过热压烧结法制备了相应的复合材料,其性能测试结果表明:随着ZrB2含量的增加,LaB6ZrB2复合材料的硬度和弯曲强度均随之增大,而断裂韧性则先增后减,在ZrB2质量分数为21%时,其断裂韧性达最大值。
补充资料:热压烧结
分子式:
CAS号:
性质:对较难烧结的粉料或生坯在模具内加压加热烧结的方法。加热方式有电阻直接加热,电阻间接加热,感应间接加热,感应直接加热等四种。热压烧结用模具材料主要有石墨,氧化铝和碳化硅等。石墨模具可承受70MPa压力、1500~2500℃的温度。氧化铝模具可承受200MPa压力、约1200℃的温度。加压操作方式有:(1)恒压法,整个升温过程中都施加预定的压力;(2)高温加压法:高温阶段才加压;(3)分段加压法,低温时加低压、高温时加到预定的压力。此外还可分为真空热压烧结、气氛热压烧结、连续加压烧结、超高压烧结和超高温超高压烧结等。采用热压烧结可以制造高强度、高密度、高透明度的陶瓷制品。
CAS号:
性质:对较难烧结的粉料或生坯在模具内加压加热烧结的方法。加热方式有电阻直接加热,电阻间接加热,感应间接加热,感应直接加热等四种。热压烧结用模具材料主要有石墨,氧化铝和碳化硅等。石墨模具可承受70MPa压力、1500~2500℃的温度。氧化铝模具可承受200MPa压力、约1200℃的温度。加压操作方式有:(1)恒压法,整个升温过程中都施加预定的压力;(2)高温加压法:高温阶段才加压;(3)分段加压法,低温时加低压、高温时加到预定的压力。此外还可分为真空热压烧结、气氛热压烧结、连续加压烧结、超高压烧结和超高温超高压烧结等。采用热压烧结可以制造高强度、高密度、高透明度的陶瓷制品。
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