微粒射流流电沉积零件修复工艺设计
此次实验针对微粒射流电沉积的实验研究,分析各种因素对实验材料表面质量的影响程度,其中包括:电流强度、水流喷射速度、加工进给速度、电解质的成分等,不同的实验因素对涂层的表面质量影响很大,就这些研究下能够得到最好的涂层,在其基础上对零件的修复进行科学严谨的工艺设计。41716
[毕业论文关键词]: 射流电沉积;修复;工艺设计
Part Repairing Process design for deposition of micro particle jet
Abstract Nowadays, China has become the world's largest industrial country, every year because of wear and tear of the parts are not the number of discarded, which caused a great waste of energy and the environment has a great impact. However, this research is aimed at the old mechanical parts, through a certain way or means to restore the size and the use of mechanical components, so that the waste parts can continue to use. This experiment has an important strategic significance for prolonging the service life of the machine, improving the efficiency of the equipment and realizing the sustainable development.
The experimental study on particle jet electrodeposition, analysis of various factors on the degree of influence of the material surface quality, including: current intensity, water injection rate, machining feed rate, electrolyte composition, different experimental factors on the coating surface quality influence, these studies can get the best coating, on the basis of parts repair of rigorous scientific process design.
Key Words:Jet electrodeposition repair process planning
目 录
摘要Ⅰ
Abstract-Ⅱ
第一章 绪论 1
1.1研究背景 1
1.2微粒射流电沉积修复工艺的国内外研究现状 1
1.2.1微粒射流电沉积的发展历史及研究现状 1
1.2.2目前的修复方法 2
1.3微粒射流电沉积修复技术的研究意义 3
1.4微粒射流电沉积零件修复工艺的研究内容 3
第二章射流电沉积的基本原理、介绍和操作过程 4
2.1射流电沉积的基本原理 4
2.2 微粒射流电沉积的基本过程 4
2.3 微粒射流电沉积机构的整体结构 5
2.4 实验器材 6
2.4.1 实验机床的选择 6
2.4.2 电源 7
2.4.3 水泵 9
2.4.4 流量计 10
2.4.5 喷嘴 11
2.4.6 电解槽 13
2.4.7 电解液回收罐 14
2.5 实验操作过程 16
2.5.1电解液的选择 16
2.5.2电解液的配制 18
2.5.3实验主程序的编写 19
2.5.4实验的具体操作 20
第三章 设计修复工艺,修复工装设计 21
3.1具体实验 21
3.2工装设计 23
3.3修复工艺的设计 23
第四章 总结和展望 24
参考文献 26
致谢 28
第一章 绪论
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