1) pressureless sintering at constant heating rate
恒速无压烧结
1.
Based on the combined-stage sintering model,the MSC of α-Al2O3 is constructed during pressureless sintering at constant heating rates in a dilatometer.
主烧结曲线对于预测陶瓷的烧结行为非常有用,以主烧结曲线理论为基础,对亚微米级α-Al2O3(平均粒径为350nm)的恒速无压烧结行为进行了研究。
2.
Based on the combined-stage sintering model, the master sintering curve (MSC) for the α-Al2O3 was constructed for pressureless sintering at constant heating rate in a dilatometer.
主烧结曲线对于预测陶瓷的烧结行为非常有用,以主烧结曲线理论为基础,对微米级α-Al2O3的恒速无压烧结行为进行了研究。
2) CHR
恒速烧结
3) Pressureless Sintering
无压烧结
1.
Preparation process of ZrB_2/B_4C ceramic composites by pressureless sintering based on mechanical mixing;
基于机械混合法无压烧结制备ZrB_2/B_4C陶瓷复合材料
2.
Research on pressureless sintering of hexagonal boron nitride;
六方氮化硼无压烧结研究
3.
Discussion on pressureless sintering of SiC ceramic;
SiC陶瓷无压烧结工艺探讨
4) pressless sintering
无压烧结
1.
In this paper,the ZrB_2-SiC ceramic matrix composites were prepared by pressless sintering with YAG as sintering additive.
以钇铝石榴石-YAG为烧结助剂,通过无压烧结制备了ZrB2-SiC复相陶瓷。
2.
Zirconium diboride-silicon carbide (ZrB2-SiC) composites were prepared by pressless sintering with yttrium aluminum garnet (YAG) as sintering additive.
以钇铝石榴石(yttriumaluminumgarnet,YAG)为烧结助剂,通过无压烧结工艺制备了ZrB2-SiC复相陶瓷。
3.
The mechanical properties and microstructure of silicon nitride ceramics with MgO-Al2O3-SiO2 as additives produced by pressless sintering were investigated by XRD, SEM, TEM, EDS, and HRTEM.
以MgO-Al2O3-SiO2为烧结助剂,借助XRD、SEM、TEM、EDS、HRTEM等手段,研究了无压烧结氮化硅陶瓷材料的力学性能和显微结构,着重探讨了材料制备工艺、力学性能和显微结构之间的关系,通过调整制备工艺改善材料微观结构以提高材料的力学性能。
5) Isothermal sinter
恒温烧结
6) pressureless reactive sintering
无压反应烧结
1.
With nanometer (75mol%Bi2O3+25mol%Y2O3) powder prepared by coprecipitation as raw material, the nanocrystalline Bi2O3-Y2O3 fast ionic conductor was fabricated through pressureless reactive sintering technique.
在T=600℃,t=2h无压反应烧结条件下,纳米晶Bi2O3-Y2O3 快离子导体材料的相对密度可达96%以上,并且微观结构致密均匀,很少有残留气孔和裂纹, 平均晶粒尺寸在100nm以下。
补充资料:冷压烧结成型
分子式:
CAS号:
性质:又称冷塑法,塑料材料加工方法之一。即将冷塑材料或无机可塑塑料加入到模具中在高压下经过一定时间成型。取出型坯后再加热后冷却使其硬化或不加热而经化学反应固化得到制品。此法操作简单、迅速,如超高分子量及酚醛树脂的塑料制品常采用此法加工。
CAS号:
性质:又称冷塑法,塑料材料加工方法之一。即将冷塑材料或无机可塑塑料加入到模具中在高压下经过一定时间成型。取出型坯后再加热后冷却使其硬化或不加热而经化学反应固化得到制品。此法操作简单、迅速,如超高分子量及酚醛树脂的塑料制品常采用此法加工。
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