本发明公开了一种超薄壁零件加工的方法,包括如下步骤:1)打造连体锻件;
The invention discloses a method for processing ultrathin-wall parts, which comprises the following steps: 1) forging conjoined forge pieces;
分析了低刚度薄壁零件的工艺刚度特征及其加工过程的受力变形特性,提出了实现低刚度薄壁零件精密加工的技术途径。
The process rigidity character of low rigidity thin wall parts was analyzed. The technology pathway of precision machining for low rigidity thin wall parts was brought forward.
最后,在上述研究基础上对薄壁零件的电铸加工工艺进行了大量试验并制作出了合格的薄壁零件。
On the basis of these studies, the process of the electroforming complex thin-walled parts has been researched and qualified parts are got.
因此,薄壁零件的切削稳定性一直是高速切削加工领域内的一个难点。
Therefore, the stability of machining thin-walled parts is always a difficult point in high-speed machining.
通过实例从零件的变形理论分析、防变形工艺方法等角度出发研究了薄壁矩形深腔体零件的数控加工工艺。
By means of illustration, from the view of parts distortion theory analysis, distortion prevention, researches the numeric processing technic of thin-wall rectangular deep recessed parts.
文中通过实例从零件的变形理论分析、防变形工艺方法等角度出发研究了薄壁矩形深腔体零件的数控加工工艺。
By means of illustration, from the view of parts distortion theory analysis, distortion prevention, this paper researches the numeric processing technic of thin-wall rectangular deep recessed parts.
利用车铣加工技术在薄壁筒零件加工方面的优势,分析了实现复杂阀芯零件完整加工的可能性。
As the turn-milling technology can be achieved complete machining for rotating body components, minimize the times of re-location meet the parts processing requirements.
通过分析铝骨架零件的机加工工艺,介绍铝制薄壁零件在机加工过程中的关键工艺环节。
The machining process of the aluminum-framework parts are analyzed and the key step of the technique of the thin wall aluminum parts are presented.
加工薄壁套类零件时,由于受切削热、机床精度、刀具角度等诸因素影响,零件极易变形。
Affected by cutting heat, machine tool precision, cutting tool angles and so on, thin-wall case deform easily.
针对模具薄壁零件的结构特点和加工工艺,介绍一种采用数控加工模具薄壁零件的方法。
According to the structure characteristics and processing of the thin-wall mold parts, introduces a kind of method that adopts CNC to process the thin-wall mold parts.
在机械加工过程中,薄壁零件的刚度成为影响加工精度的关键。
In the process of machinery, the stiffness of the thin-walled parts become a key of influencing the precision.
本文针对薄壁衬套类零件易产生加工装配变形的问题 ,根据实际经验提出了解决措施 ,经实践使用证明 ,效果理想。
Thin-wall linings are easy to deform in processing and assemblying, this paper puts forward solutions to solve this problem.
大直径薄壁零件由于存在加工过程中容易变形的特点,难以保证其加工精度。
It is difficult to ensure the machining accuracy of large diameter and thin-walled components due to their easy-to-occur characteristic of deformation during machining.
高精度、薄壁腔体类零件在电子行业的应用越来越广泛,其加工制造一直存在加工周期长、加工成本高等难点。
High precision and thin-wall parts are used more and more widely in electronic industry, there are some difficulties to machining these parts such as long processing cycle and high processing cost.
实践证明,采取一定的工艺措施可以有效的解决薄壁零件变形及加工精度不高等问题。
Practice shows that the process to take some measures to solve thin-walled parts can be effectively deformed and not high precision.
薄壁半圆环形结构的零件属断续加工,由于零件的刚性差,容易变形,加工较为困难。
The thin wall semicircle ring-like accessory is machined intermittently. It is difficult to machine because of its bad rigidity and easy distortion.
本文针对薄壁衬套类零件易产生加工装配变形的问题 ,根据实际经验提出了解决措施 ,经实践使用证明 ,效果理想。
Based on worksite practice, the paper introduces Cleaning and Overhaul Technology of the chock, bushing, sleeve which are the key parts in the oil film bearing.
本实用新型公开了一种开口薄壁轴套的翻边模,用于开口薄壁轴套类零件进行翻边的加工。
The utility model discloses a flanging die of a shaft sleeve with an opening and thin walls, which is used in the flanging process of fitting parts such as shaft sleeves with openings and thin walls.
本实用新型公开了一种开口薄壁轴套的翻边模,用于开口薄壁轴套类零件进行翻边的加工。
The utility model discloses a flanging die of a shaft sleeve with an opening and thin walls, which is used in the flanging process of fitting parts such as shaft sleeves with openings and thin walls.
应用推荐