1.
POROUS SILICON NITRIDE CERAMICS PREPARED BY CARBOTHERMAL REDUCTION–PRESSURELESS SINTERING METHOD
碳热还原-常压烧结法制备多孔氮化硅陶瓷
2.
Research on preparation and properties of magnetic abrasive by conventional solid-state sintering method
常压固相烧结法制备磁性磨料及其性能的研究
3.
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。
4.
The Influences of Different Additives on Pressureless Sintering of Si_3N_4 Ceramics;
不同烧结助剂对氮化硅常压烧结的影响
5.
Made of shaping Polytetrafluorethylene Resin by moulding in ordinary temperature then through high heat sintering.
将聚四氟乙烯树脂在常温下用模压法成型后再经高温烧结制成。
6.
Pressureless Sintering of SiC and Its Mechanism of Corrosion by Molten Salts
碳化硅的常压烧结及其熔盐侵蚀行为
7.
Research of Ca_3Co_2O_6 System Thermoelectric Materials and Its Property by Normal Pressure Sintering
常压烧结Ca_3Co_2O_6系热电材料及其性能研究
8.
Pressureless Sintering of ZrB_2-SiC Composites Strengthening by Ultra-Fine Ceramic Powders
常压烧结制备ZrB_2-SiC复相陶瓷材料
9.
One-Step Synthesis of AlON Ceramic Materials under Pressureless Sintering
一步常压烧结制备AlON陶瓷材料
10.
Made of shaping Polytetrafluoethylene Resin into blank by moulding in ordinary temperature, through high heat sintering, then ratary cut.
用聚四氟乙烯烧树脂在常温下用模压法制成坯料,经高温烧结后旋切而成。
11.
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
12.
Oxidation Behaviors of the Pressureless Sintered ZrB_2-SiC Composites
常压烧结ZrB_2-SiC复相材料的抗氧化行为研究
13.
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
14.
Made of pressing Polytetrafluoethylene Resin into various simple shapes of seal in ordinary temperature then through high heat sintering and special treatments.
用聚四氟乙烯树脂在常温下压制各种简单形状的密封件,再经高温烧结后经特殊方法处理制成。
15.
, 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。
16.
Test method for firmness of getter by pressure or sinter
GB/T9506.10-1988吸气剂压制或烧结牢固度测试方法
17.
Sintered metal bushes--Determination of radial crushing strength
GB/T6804-1986烧结金属衬套径向压溃强度测定法
18.
Preparation of SiC_p/Cu Nanostructure Composite by Ball Milling and Hot Pressed Sintering;
球磨—热压烧结法制备SiC_p/Cu纳米复合材料