半固态加工技术是新的材料成形技术。
Semi-solid processing in a new material formation technique.
提出一种将常规数控加工技术与精密材料成形技术结合应用于快速模具制造的新工艺。
A new process for rapid tooling integrating numerical control with modern precision forming was presented.
半固态铸造是一种新的材料成形技术,采用半固态铸造技术成形可以实现产品的低成本、高产出及高质量。
Semi-solid casting is a new kind of materials forming technique, the products having low cost, high production rate and high quality can be obtained using semi-solid casting technique.
添加材料一次一层、步步为营直至成形,因此该技术又有了另一个名称:加法制造。
Products are thus built up by progressively adding material, one layer at a time: hence the technology's other name, additive manufacturing.
AMUT公司由于在热塑材料的挤压和热成形技术上的优异表现,受到了机械设备生产商的普遍赞誉,已成为该行业的典范。
AMUT enjoys a great reputation among the manufacturers of plants for the extrusion and thermoforming of thermoplastic materials and is a point of reference for everyone in this field.
硬脆性无机材料的激光成形加工是激光加工技术最有前途的领域之一。
Laser shaping technology on hard and brickle inorganic materials is one of the most promising fields.
目的:选择性能优良且安全的颅骨修补材料,探讨数字化多点成形技术在颅骨修补中的临床应用价值。
Objective To select materials with high quality and safety and evaluate the clinical value of multi-point forming technique in skull repairing.
粉末快速成形是一种以能量流对粉末材料进行固化或粘接成形的快速成形技术。
Powder rapid prototyping is such kind of rapid prototyping technology that USES energy flow to solidify or coagulate the powder materials.
粉末快速成形是一种以能量流对粉末材料进行固化或粘接成形的快速成形技术。
Powder instant prototyping is a technology for fast prototyping which based on the concretion or conglutination of the powder materials by power current.
实型铸造法的关键基础技术包括:模样的材料及成形、涂料、型砂的振动充填、金属液的充填。
The key basic technology in full mould casting process includes: material and formation of pattern, coating, vibratory fill of moulding sand as well as molten metal filling.
最后指出磁性材料注射成形技术的研究意义。
The research significance of the metal injection moulding technique of manufacturing magnets are outlined.
本文阐述了粉末注射成形技术及其特点,以及在难熔钨合金和硬质合金及其它材料中的应用。
The powder injection molding technology, features and application in materials such as refractory tungsten alloys and hard alloys are reviewed in this paper.
阐述了材料成形领域中计算机软件开发的基本内容、技术路径和主要方法,进行了现状综述与前景展望。
The basic content, technological route and main methods of development of computer software in material forming filed were mentioned in this paper. The today and prospect were expressed.
慢速走丝线切割加工技术在高精度模具制造、成形电极丝加工、难加工材料和精密复杂零件的加工中占有重要的地位。
LS-WEDM plays an important role in the field of high-precision mould manufacture, shaped tool machining, hard-machined material and the machine of precise complex part.
半固态金属成形技术的关键是制备非枝晶结构的半固态金属材料。
For semi solid metal forming, it is crucial to produce semi solid metal materials that have non dendritic structure.
半固态成形技术是冶金材料领域重要研究课题。
Semisolid forming has taken its place among advanced metallurgy material processing fields.
半固态加工是金属材料成形领域中的一种新工艺。本文分析了铝合金半固态成形技术的现状及发展趋向。
Semi-solid forming is one of new types of material processing. This paper analyses the present and the future of this new forming technology.
通过试验表明,所开发的流动控制成形技术可节约原材料、提高工作效率及产品质量,具有显著的技术经济效益。
It is shown by tests that the developed flow-controlled forming technology can save materials, improve efficiency and quality, and has great technical and economic benefit.
本发明涉及一种金属材料的半固态加工的方法和相应的装置,属于金属加工的近终成形技术领域。
The invention relates to a semisolid processing method of metal materials and a corresponding device and belongs to the technical field of near-net shaping of metal finishing.
这些材料通过在所述头和所述杆之间有可能不同的制造技术结合,其中至少气门的一部分通过动磁压制成形而制成。
These materials are combined with fabrication techniques that may vary between the head and the stem, where at least a part of the valve is made by dynamic magnetic compaction.
介绍了铝质易开盖对铝合金材料性能的要求,着重分析了铝质易开盖生产过程中的技术要求,以及铆钉成形原理、刻痕的工艺控制。
The technical requirements in aluminium easy open ends manufacturing processes, the rivet forming principles and the score process control are emphatically analysed.
激光快速成形作为一种材料凝固成形新技术,诸多优点使其成为一种具有竞争力的TC 21钛合金成形方法。
Laser rapid forming (LRF), a new solidification processing technology, has many advantages which would make it competitive for the processing of TC21 alloy.
利用冲压成形仿真技术预测材料流动和应变分布,先确定成形后商标在零件上的布置,再反推到成形前平板毛坯上的位置。
The stamping simulation technology could predict the material flow and the strain distribution, so the initial mark location and shape could be calculated.
简要介绍了航空金属材料的激光冲击强化技术和激光冲击成形技术,并从工艺参数、力学效应以及应用效能等方面进行了比较。
The techniques of laser shock-processing and laser shock-forming were introduced and compared from the processing methods, mechanics effects and their applications.
介绍了快速成形技术的产生背景、基本原理、工艺方法、成形材料、软件、应用以及发展趋势。
Creating background of rapid prototyping technology, basic principles, technological methods, prototyping material, software, application and trend a re introduced.
着重探讨了成形技术中的主要影响因素及成形条件对成形后金属基复合材料特性的影响。
The main parameters of the fabrication process and the effect of the forming conditions on FRM sheet properties are emphatically discussed in this paper.
将电磁成形技术用于粉末材料致密度研究中,以PZT粉末为研究对象,对其进行低电压电磁压制成形。
Electromagnetic forming was applied to the powder material compaction, and PZT powder was compacted with low-voltage electromagnetic compaction.
用电磁成形技术压制粉末材料是获得高密度、高性能粉末冶金制品的一种有效方法,是低成本制造高密度陶瓷零件的新途径。
Using this technique is an effective method to obtain high density and high properties powder metallurgical products. It is also a new way to produce the densified ceramics with low cost.
精密成形技术不仅能节省原材料和能源,缩短生产周期,还能获得复杂形状的制件,提高产品质量和增强其市场竞争力。
The precision plastic formed technique can save raw material and power, shorten manufacture cycle, obtain complicated shape product, improve product's quality and strengthen market competition.
精密成形技术不仅能节省原材料和能源,缩短生产周期,还能获得复杂形状的制件,提高产品质量和增强其市场竞争力。
The precision plastic formed technique can save raw material and power, shorten manufacture cycle, obtain complicated shape product, improve product's quality and strengthen market competition.
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