摘要
增材制造技术以“逐层堆积”的核心原理突破传统减材制造瓶颈,凭借轻量化、复杂化、快速化的技术优势,成为飞行器零部件生产领域的关键变革力量。本文聚焦于增材制造技术在飞行器零部件生产中的运用研究,先阐述了增材制造技术在飞行器零部件生产中运用的意义,如有利于筑牢飞行器极端环境适配能力、有利于实现飞行器制造的降本增效等,然后又提出了几点运用的措施,进而不仅能精准匹配航空航天领域对零部件高度和高精度的需求,还能提高生产的效率,优化产品的性能,推动飞行器制造转型。
关键词: 增材制造技术;飞行器零部件生产;运用
Abstract
Additive manufacturing technology breaks through the bottleneck of traditional subtractive manufacturing with the core principle of "layer by layer stacking". With the technological advantages of lightweight, complexity, and speed, it has become a key transformative force in the field of aircraft component production. This article focuses on the application of additive manufacturing technology in the production of aircraft components. Firstly, it elaborates on the significance of using additive manufacturing technology in the production of aircraft components, such as strengthening the adaptability of aircraft to extreme environments and achieving cost reduction and efficiency in aircraft manufacturing. Then, several measures for application are proposed, which can not only accurately match the requirements for component height and high precision in the aerospace industry, but also improve production efficiency, optimize product performance, and promote the transformation of aircraft manufacturing.
Key words: Additive manufacturing technology; Production of aircraft components; Apply
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