放电等离子烧结(SPS)是一种快速烧结新工艺。
Spark plasma sintering (SPS) is a new process of rapid sintering.
利用放电等离子烧结技术尝试烧结出了超细纯碳化钨粉。
Attempt to sinter ultrafine Pure WC by spark plasma sintering was made.
用放电等离子烧结技术将WO3和炭黑的混合粉原位合成为致密的wc块体。
The mixed powder of WO3 and carbon was in-situ synthesized to get the dense WC bulk by a spark plasma sintering technique.
研究了烧结温度、保温时间和球磨时间对放电等离子烧结合金耐磨性能的影响。
The effects of sintering temperature, holding time, and milling time on the tribological properties were also studied.
本文通过对块体非晶合金制备方法的研究,重点探讨了新型块体非晶合金放电等离子烧结制备方法。
Based on the research in the fabricating ways of the bulk amorphous alloy, the discharge plasma sintering process of the novel bulk amorphous alloys is discussed emphatic ally.
考虑到放电等离子烧结的一步成形工艺,将粉末材料的热电性能参数假设为温度和密度的双变量函数。
Considering the single step processing technique of SPS, the thermal-electrical properties parameters of powder material were assumed as bivariate functions of temperature and the relative density.
对放电等离子烧结合金进行高温压缩试验,研究了变形速率、变形温度和试样制备工艺对合金力学性能的影响。
The hot compression test was performed, and the effects of the deformation rate, the deformation temperature, and the preparation process on mechanical property of the as–sintered alloys were studied.
本发明结合了放电等离子烧结和分步 烧结的方法,解决了金属铜和氮化铝陶瓷之间的结合困难问题,也实现了高温差、高不相容性梯度复合材料的制备。
The method solves the problem of poor bonding between Cu and aluminum nitride ceramic, and can realize preparation of gradient composite with high temperature difference and poor compatibility.
它是通过瞬间高能脉冲电流使粉末颗粒之间产生等离子放电,烧结制成高性能材料或制件。
It facilitates plasma discharge generated by transient high-energy pulse electric current among powder particles to prepare high-performance materials.
所述烧结包括保护气氛烧结、真空烧结、热压、热等静压、放电等离子体烧结。
The sintering treatment includes protective atmosphere sintering, vacuum sintering, hot pressing, hot isostatic pressing and spark plasma sintering.
[10]聂俊辉,贾成厂,张亚丰,等。机械球磨与放电等离子体烧结制备碳纳米管/铜复合材料[J]。粉末冶金工业,2011,21(5):44-50。
NIE J H, JIA C C, ZHANG Y F, et al. Fabrication of carbon nanotubes/copper composites using mechanical milling and spark plasma sintering[J]. Powder Metallurgy Industry, 2011,21(5):44-50.
该方法主要包括三个部分:(1)利用放电等离子 烧结技术实现氮化铝陶瓷的较低温度烧结;
The method comprises: (1) sintering aluminum nitride ceramic at a low temperature by plasma-discharging sintering;
该方法主要包括三个部分:(1)利用放电等离子 烧结技术实现氮化铝陶瓷的较低温度烧结;
The method comprises: (1) sintering aluminum nitride ceramic at a low temperature by plasma-discharging sintering;
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