Applying Additive manufacturing to Aluminum tool part design

将增材制造应用于铝工具零件设计

• 批准号: 538319-2018
• 负责人: Brochu, Mathieu
• 金额: $ 8.51万
• 依托单位: McGill University
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=720493
• 关键词: Applying; Additive; manufacturing; Aluminum; tool

Additive Manufacturing (AM) refers to an emerging class of technologies that build 3D objects by the controlled addition of materials in a layer-by-layer fashion, at or near their final shape, with or without complex internal structures, using a minimum amount of machining.Dies and molds, from the numerous thermal gyrations imposed during operation, could have their performance improved by the availability of technologies permitting to maintain a uniform temperature field. AM is becoming an enabling manufacturing technology capable of providing such advantages by the insertion of conformal cooling channels in strategic locations. This integrated thermal management concept will allow a reduction in the duty cycle (increased production rate), an increase in the processing capacity and an improvement of the profitability. However, most of the fundamental concepts in the design and manufacturing of such dies and molds remain to be defined. In that context, this joint NSERC-CQRDA proposal is established to define: (1) optimized methods for design for additive manufacturing (DFAM) of tooling with thermal management systems, (2) how to fabricate such tools and dies with complex cooling channel systems using new high strength/high thermal conductivity powders and (3) how to obtain surfaces with compatible characteristics for the Al forming industry. These fundamental knowledge gaps will be answered during this project.The availability of such high-performance toolings is of key interest to the industrial sponsors of this project, namely Verbom, Exco Engineering, Trumpf and AlTec. All of them will benefit by improving their competitiveness and product portfolio, leading to the ultimate goal of business growth, which will contribute to improving Canada's position in the adoption rate of AM technologies in the tooling and transportation sector.

增材制造（AM）是指一类新兴的技术，通过逐层控制添加材料，以最终形状或接近最终形状的方式构建3D物体，具有或不具有复杂的内部结构，使用最少量的加工。模具和模具，从操作过程中施加的众多热回转，可以通过允许保持均匀温度场的技术的可用性来提高它们的性能。AM正在成为一种能够通过在战略位置插入共形冷却通道来提供这些优点的使能制造技术。这种集成的热管理概念将允许减少占空比（提高生产率），增加处理能力和提高盈利能力。 然而，在设计和制造这种模具和模具中的大多数基本概念仍有待定义。在这种情况下，NSERC-CQRDA联合提案旨在定义：（1）具有热管理系统的工具的增材制造（DFAM）设计的优化方法，（2）如何使用新的高强度/高导热性粉末制造具有复杂冷却通道系统的工具和模具，以及（3）如何获得具有铝成型行业兼容特性的表面。这些基本知识缺口将在本项目中得到解决。该项目的工业赞助商Verbom、Exco Engineering、Trumpf和AlTec对此类高性能工具的可用性非常感兴趣。他们都将通过提高竞争力和产品组合而受益，从而实现业务增长的最终目标，这将有助于提高加拿大在模具和运输行业增材制造技术采用率方面的地位。