特别适合金属工艺品、精密零部件及精密陶瓷切割器件的快速成型切割。
It is especially suitable for rapid prototyping cutting on metal art craftworks, precision parts and components and precision ceramic apparatus.
介绍了基于快速成型技术的快速铸造金属模具的工艺流程和影响模具尺寸精度的主要误差因素。
The process flow of rapid casting technology based on RP for metal molds and main error factors influencing mold's dimensional precision were introduced.
快速成型工艺结合精密铸造技术是快速制造金属零件的主要途径。
Combining RP technology and precision casting is a major way to rapidly manufacture metal parts.
利用激光烧结快速成型技术可以烧结覆膜陶瓷材料,形成铸造用型腔壳体并直接应用于铸造,制作金属零件。
Polymer coated ceramic powder can be used to manufacture mold shell with selective laser sintering technology, and the mold shell is usually used to cast and produce metal part.
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。
Based on selective laser sintering (SLS) rapid plastic prototype with precision casting technology, metallic parts are made.
对金属直接快速成型技术及其扫描策略加以分析,建立分区域穿梭扫描算法。
The metal directly rapid prototyping technology and its scan tactic were analyzed. The calculative method of shuttling region was built up.
结果表明,堆焊技术是可以用于快速成型的,并可以得到组织致密的金属零件。
It is found that surfacing welding shaping can be applied in rapid prototyping, and consequently metal components with compact texture can be obtained.
本文对激光熔覆快速成型致密金属零件进行试验研究。
Rapid prototyping by laser cladding can directly manufacture metal components without prototypes or moulds.
近几年来,以研究金属材料直接快速成型为目标的熔焊成型技术已经成为国际上的一个研究热点。
In recent years, Welding Rapid Prototyping at the aim of studying metal material shaped directly has become a international researching focus.
快速成型工艺结合精密铸造技术是快速制造金属模具的主要途径。
The RP technology combining with precision casting is a major way to rapidly manufacture metal mould.
本文在介绍快速成型技术的一个重要分支——选区激光烧结的基础上,提出了一种基于小功率激光快速成型系统的金属零件成型工艺。
Introducing selective laser sintering (SLS), an important branch of RPM, this paper gives a new method oriented on low power SLS system to fabricate metal parts.
金属粉末的激光快速成型技术是集计算机辅助设计、激光熔覆、快速成型于一体的先进制造技术,是传统加工成形方法的重要补充。
Laser rapid prototyping based on metallic powders is a new manufacturing technology, which combines with computer aided design, laser cladding and rapid prototyping.
研究结果表明,采用射流电铸快速成型技术可直接成型纳米晶金属零件和三维大块体纳米晶材料。
The result shows that nanocrystalline metal parts and dimensional bulk nanocrystalline metal materials can be fabricated rapidly by the technology of rapid prototyping oriented jet electroforming.
研究结果表明,采用射流电铸快速成型技术可直接成型纳米晶金属零件和三维大块体纳米晶材料。
The result shows that nanocrystalline metal parts and dimensional bulk nanocrystalline metal materials can be fabricated rapidly by the technology of rapid prototyping oriented jet electroforming.
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