铝合金压壳结构件增材制造实验方案设计
(1)调研增材制造技术国内外发展现状,掌握激光选区熔化技术相关基本原理;
(2)根据铝合金粉末特性及实验设备参数设计增材制造实验方案,并对实验结果进行分析;
(3)完成铝合金压壳结构件的增材制造,并对零件质量进行评估。
基于课题研究内容,得到适合铝合金粉末激光选区熔化成型的最佳激光功率和扫描速度,实现了铝合金压壳结构件的增材制造。
关键词: 激光选区熔化技术;铝合金压壳结构件;工艺参数优化
毕业论文设计说明书外文摘要
Title Design of Experiment Scheme for Machining Aluminum Alloy Shell
Structure Based on Additive Manufacturing
Abstract
Selective Laser Melting technology is applied widely because of its short manufacturing cycle, etc., in the aerospace, automotive, biological medical complex special-shaped structure for manufacturing widely attention.This topic main research press for aluminum alloy shell structure of material manufacturing technology, laser constituency in his constituency of fully understand the laser melt molding technology principle, the operation steps of metal forming equipment, basic molding process optimization method, on the basis of the increasing of pressure hull structure material manufacturing experiment plan formulation, process parameter optimization methods focus on aluminum alloy material, achieve the printing pressure casing.Main work includes:
(1) the research material manufacturing technology at home and abroad development situation, grasp the basic principle of laser district melting technology related;
(2) according to the aluminum alloy powder characteristics and experiment equipment parameter design to add material manufacturing plan, and the experimental results were analyzed;
(3) complete aluminum alloy shell structure of pressure increases material manufacturing, and to evaluate the quality of parts.
Based on the research content, suitable for aluminium alloy melt molding powder laser constituency the optimal laser power and scanning speed, realizes the aluminum alloy shell structure of pressure increases material manufacturing.
Keywords: Selective Laser Melting; Aluminum alloy shell structures; technological parameter
目次
1 绪论 1
1.1 课题背景及研究意义 1
1.2 激光选区熔化技术的基本原理 2
1.3 激光选区熔化技术国外发展现状 4
1.3.1 激光选区熔化技术国外发展现状 4
1.3.2 激光选区熔化技术国内发展现状 5
1.4 课题研究内容 6
1.5 论文内容安排 6
1.6 本章小结 1
2 激光作用金属粉末基本原理 7
2.1 激光作用粉末基本原理 7
2.2 主要成型缺陷 8