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1)  quasi-nonreactivesintering mechanism
"准非反应"烧结机理
2)  reaction-sintering mechanism
反应烧结机制
3)  mechanism of roasting reaction
焙烧反应机理
4)  reaction sintering
反应烧结
1.
Microstructure and properties of Mo_2FeB_2 cermets clad layer by reaction sintering;
反应烧结三元硼化物金属陶瓷覆层的组织与性能
2.
Densification of laser ignited reaction sintering of Ni-Al-Cu powder alloy;
Ni-Al-Cu粉末合金激光点火反应烧结的致密化研究
3.
The samples prepared by general sintering and reaction sintering are investigated by XRD,SEM and other testing means for their structure and performance.
采用常规烧结法和反应烧结法烧结制品,并利用XRD和SEM等测试手段对制品的结构与性能进行了分析研究。
5)  reactive sintering
反应烧结
1.
Preparation of cemented carbide having highly oriented WC grains by reactive sintering of W-Co-Nano carbon tubes;
W-Co-纳米碳管反应烧结制备高度取向硬质合金
2.
Densification behavior during reactive sintering of compacted Ti/Al composite powders prepared by high energy ball milling;
高能球磨Ti/Al复合粉体的反应烧结致密行为
3.
Temperature model of reactive sintering of Ni Al thermal spray layer;
Ni-Al喷涂层中温反应烧结的温度变化模型
6)  reaction-bonded
反应烧结
1.
Low density silicon nitride with about 55% porosity and globed macropores was prepared by reaction-bonded raw silicon powder and adding 30% in mass pore-forming agent of benzoic acid ball-like particles.
以硅粉为原料,添加质量分数为30%的成孔剂(苯甲酸)球形颗粒,反应烧结制备了气孔率为55%,具有球形宏观孔的低密度多孔氮化硅陶瓷。
2.
A near-net-shape SiC was prepared by reaction-bonded from a pure carbon perform which was fabricated by mould from graphite power as raw and phenolic resin as binder.
以石墨粉体为原料,酚醛树脂为粘接剂,采用模压成型工艺制备了全碳质素坯,反应烧结后得到S iC材料。
3.
The effects of carbon content, moulding pressure, and carbon particle size of green body on microstructure and properties of reaction-bonded silicon carbide (RBSC) have been investigated.
研究了反应烧结碳化硅陶瓷的显微组织和性能与生坯碳含量、成型压力以及碳粉粒度的关系。
补充资料:烧结机理
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性质:对烧结过程中物质迁移、反应动力学以及烧结现象等,提出模型、假定、进行定性解释及定量说明的理论。其传质机理主要有:(1)扩散(表面扩散、界面扩散、体积扩散);(2)蒸发与凝聚;(3)溶解与沉淀;(4)黏滞流动和塑性流动等,并提出了相应的动力学方程。一般烧结过程中各不同阶段有不同的传质机理,即烧结过程中往往有几种传质机理在起作用。影响烧结因素很多,主要有温度、时间、气氛、起始粉料粒度、活性等。

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