由于壳体的厚度有限,壳体的金属能加工制备与模板建造需要特别细心与精确。
Construction of the formwork and preparation of the metal reinforcement for shells required particular care and accuracy because of their limited thickness.
壳体采用高压力、高精度成型设备,一次成型精密加工而成,提高产品的精度,保证产品的质量。
Shell adopts high pressure, high precision molding equipment, precision machining and forming time, improve the product's accuracy, ensure the quality of products.
该机床具有旋压切断功能,特别适用于压缩机壳体等大型圆柱薄壁筒形件的切断加工。
It has the functions of spinning and cutting, especial ly available to cut off big thin-wall cylindrical workpiece such as the shell of compressor.
主要介绍了混合器壳体上小孔的激光加工方法和激光制孔工艺参数的选择,对激光工艺的加工效果进行了分析。
The laser drilling method of holes on the mixer shell and the selection of the technical parameters of laser drilling are introduced. The machining effect is analyzed.
根据燃烧器壳体的结构特点,对已加工好的燃烧器壳体就其在加工中所出现的精度问题进行了分析,找出了影响加工精度的主要因素。
According to the structure of burner shells, the accuracy of machining burner shells is analysed in detail, and the chief factors which affect machining accuracy are found out.
对于壳体上的特殊变径段折边封头,应视工厂加工能力采用相应方案。
For the special flanged head at reducer section on shells, the plan shall depend on the fabrication capacity of plants.
针对前桥壳体的两个空间平面的加工问题,从技术和经济的角度,时比、分析、论证多个加工方法,获得较佳工艺方案。
Through contrast, analysis, expounding and proving several machining methods for both space plane of front car housing from technical and economic angle gains the optimum processing plan.
本课题是对铝壳体进行模具设计并分析加工工艺。
The subject is about the design of Aluminum shell mold and process analysis.
分析复杂壳体零件结构特点,加工难点,阐述了保证零件精度的数控加工技术。
The characteristics of complex shell parts and the difficulties of machining were analyzed. The machining technology to ensure precision was presented.
提出一种以加工中心为主要加工设备,并适用于CAPP系统的壳体类零件工艺线安排的反向拓朴方法。
This paper presents a counter topologic method of shell class part technology line planning, which based on the machining center and is applicable to CAPP system.
蜗轮壳体为铸造毛坯,形状复杂,加工精度高,给机加工带来了一定的难度。
The turbine body is cast blank, which complicated shape and high accuracy rate bring certain difficulty for machining.
在分析加工颤振机理的基础上,对加工齿轮泵壳体齿圈槽专用刀具的刀体结构和刀具参数进行了优化设计。
Based on the analysis of cutting chatter, the cutter body structure and parameters of special cutter for machining gear pump bodies are optimum designed.
通过分析轴承壳体的功能和作用,对轴承壳体的结构设计提出了改进方法,并从工艺上实现了轴承壳体的一体化加工。
Based on function analysis, an improvement method is put forward for bearing shell construction design. An integral machining is realized technologically.
利用C20系列可编程序控制器对微电机加工制作中的定子铁心、电机壳体t IG自动焊接实现过程程序控制。
Programmable controller C20 is used in the program control of TIG automatic welding on manufacturing micro motor shell and stator core.
壳体用卧式加工中心,一次装夹完成所有尺寸的加工,相对位置度更加精确。
The shell is machined by the horizontal machining center, with more accurate relative positions by completing the machining of all sizes through one-time clamping.
采用温挤压制坯与温冲压成形相结合的近净成形加工技术,对壁薄且外形复杂的2a12铝合金小型外壳体进行精密成形加工。
Put forward the near-net-sharp forming process of warm extrusion and warm stamping to manufacture the precision forgings for the thin-wall shell bodies made of 2a12 aluminium alloy.
某产品在冲压加工过程中,壳体体部内外表面出现了氢鼓泡,这是几十年来壳体生产从未见到的。
Hydrogen blisters have been found on both inside and outside surfaces of shells of certain mild steel product during pressing. This phenomenon has not presented itself for decades of years.
分析了液压油箱壳体大盲孔的加工难点,介绍了硬质阳极化后光整加工大盲孔的工艺方法及取得的技术经济效果。
In this paper, the difficulties, which appear in the processing of big diameter blind holes in hydraulic oil tank case, are analyzed.
上下壳体采用优质钢材加工成型,外形美观。
Filter vessel is made of high quality steel and has nice looking figure.
上下壳体采用优质钢材加工成型,外形美观。
Filter vessel is made of high quality steel and has nice looking figure.
应用推荐