Spark plasma sintering (SPS) is a new process of rapid sintering.
放电等离子烧结(SPS)是一种快速烧结新工艺。
The processes of rapid forming solid parts by laser sintering ceramic powder include laser sintering and second sintering post treatment.
激光烧结陶瓷粉末快速成型三维零件的过程包括激光烧结和二次烧结后处理两个步骤。
Precoated sand made of mixing this kind of resin and sand can serve as laser sintering material which suits laser rapid molding process much more.
这种烧结剂是一种改性酚醛树脂,它和作为耐火骨料的原砂混合制成覆膜砂作为激光烧结材料更加适用于激光快速成型过程。
The new PM technology has been introduced, such as superfine powder manufacture, rapid solidification processing, mechanical alloying, liquid phase sintering, rapid consolidation etc.
本文叙述了新的PM技术如超细粉制造技术、快速凝固制粉技术、机械合金化技术、液相烧结技术、快速固结技术等。
A decreased and thinned virtual prosthesis was designed based on the facial image and converted into a rapid prototyping wax prosthesis using a selective laser sintering technique.
一个减少,变薄虚拟假体设计的基础上,面部图像和快速原型蜡成用选择性激光烧结技术的假体转换。
Based on selective laser sintering (SLS) rapid plastic prototype with precision casting technology, metallic parts are made.
利用选择性激光烧结(SLS)快速成型工艺烧结塑料原型,结合精密铸造技术制出了金属零件。
The characteristics and process of the coated sand mold (core) made by selective laser sintering rapid prototyping are introduced.
介绍了用选择性激光烧结(SLS)快速成型技术直接制造覆膜砂铸型(芯)的特点及工艺过程。
However, the rapid intrinsic growth characteristic of nanometer WC grain during sintering process lead nano-grained cemented carbides with excellent mechanical performances is not acquired.
然而,纳米硬质合金粉末烧结过程中WC晶粒的快速长大行为使得难于获得真正意义上的纳米晶硬质合金块体材料。
Manufacture and application of a kind of improved phenolic resin used as sintering flux to shape laser rapid molding sand mold was introduced.
介绍了激光快速成型砂型铸模用的一种烧结剂的制作和应用。
Finally the new developments of high-temperature sintering and rapid-cooling integrated in one continuous process could realize sinter-hardening of MIM-parts.
最后把高温烧结和快速冷却组成一个连续过程,能实现MIM零件烧成品的硬化。
The rapid prototypes of the part and its die were fabricated by selective laser sintering (SLS), a rapid prototyping technique.
针对数值分析后的模型,采用激光选区烧结法快速制作零件及凹模的实体原型。
The slow heating rate and the rapid cooling rate after sintering are favorable for improving the room temperature mechanical properties.
较慢的加热速率和烧结完成后较快的冷却速率均有利于提高材料的室温力学性能。
The slow heating rate and the rapid cooling rate after sintering are favorable for improving the room temperature mechanical properties.
较慢的加热速率和烧结完成后较快的冷却速率均有利于提高材料的室温力学性能。
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