物业 | 价值 |
---|---|
机械性能 | |
极限拉伸强度 | 120 - 215 兆帕 |
屈服强度 | 60 - 170 兆帕 |
杨氏模量(弹性模量) | 70 GPa |
断裂伸长率 | 8 – 14 % |
物理特性 | |
耐腐蚀性 | 良好 |
后期处理 | |
阳极氧化兼容性 | 适用 |
常见应用 | |
建筑剖面图 | 框架 |
照明 | 雷灵 |
梯子 | 家具 |
围栏 | 地板 |
金属
数控加工
物业 | 价值 |
---|---|
机械性能 | |
极限拉伸强度 | 120 - 215 兆帕 |
屈服强度 | 60 - 170 兆帕 |
杨氏模量(弹性模量) | 70 GPa |
断裂伸长率 | 8 – 14 % |
物理特性 | |
耐腐蚀性 | 良好 |
后期处理 | |
阳极氧化兼容性 | 适用 |
常见应用 | |
建筑剖面图 | 框架 |
照明 | 雷灵 |
梯子 | 家具 |
围栏 | 地板 |
This paper discusses how emerging technologies like meta fabrication and metamaterials could transform aerospace engineering. By enabling architected
Modern high-performance engines require a much more precise manufacturing process, depending heavily on computer numeric control machining. With
This work aims to look at how CNC machining technologies which are progressive in enhancing advanced aerospace parts.
Discover how meta fabrication technologies like 3D printing and CNC machining are revolutionizing medical device manufacturing. Explore advancements
Explore how advanced meta fabrication, including additive manufacturing and bio-inspired materials, is revolutionizing tool design and infrastructure for
Explore how 3D printing is transforming architecture and construction through innovative designs, reduced waste, and sustainable materials. Discover
版权所有 © 2025 MXY Machining
版权所有 © 2025 MXY Machining