直接激光沉积理论与技术

Additive Manufacturing of High-performance Metals and Alloys - Modeling and Optimization Pub Date : 2018-07-11 DOI:10.5772/INTECHOPEN.76860

G. Turichin, O. Klimova-Korsmik

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引用次数: 8

摘要

目前，增材制造技术在工业发达国家得到了广泛的发展。用增材技术取代传统的铸造和加工技术，可以显著降低材料消耗和人工成本。它们还允许获得具有所需性能的产品。高速直接激光沉积的增材技术是制造大型产品最有前途的技术。使用该技术可以在不使用额外设备和工具的情况下，将复杂的部件和结构创建为一个技术操作。这项技术可以减少原材料的消耗，减少废物的数量。实现DLD技术的设备具有通用性和模块化设计原则。DLD是基于使用切片三维计算机辅助设计(CAD)文件的激光束逐层沉积和熔化粉末。所用的材料是基于铁、镍和钛的粉末。本章介绍了从各种材料中设计和研究HS DLD技术的成果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Theory and Technology of Direct Laser Deposition

Presently the additive technologies in manufacturing are widely developed in all indus- trialized countries. Replacing the traditional technology of casting and machining with additive technologies, one can significantly reduce material consumption and labor costs. They also allow obtaining products with desired properties. The most promising for manufacturing large-sized products is the additive technology of high-speed direct laser deposition. Using this technology allows to create complex parts and construction to one technological operation without using addition equipment and tools. This technology allows decreasing of consumption of raw materials and decrease amount of waste. Equipment for realization of DLD technology is universal and based on module design princi- ple. DLD is based on layer-by-layer deposition and melting of powder by laser beam from using a sliced 3D computer-aided design (CAD) file. The materials used are powders based on Fe, Ni, and Ti. This chapter presents the results of machine design and research HS DLD technology from various materials.

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Additive Manufacturing of High-performance Metals and Alloys - Modeling and Optimization

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