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Novel Hybrid Manufacturing Process of CM247LC and Multi-Material Blisks

机译：CM247LC和多材料炸药的新型混合制造工艺

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摘要

The study on CM247LC used the traditional approach for Near-Netshape Hot Isostatic Pressing (NNSHIP) with sacrificial low carbon steel tooling, which was built using Selective Laser Melting (SLM), to produce a shaped CM247LC blisk. The assessment of the microstructure focused on both the exterior components in order to determine the depth of the Fe-diffusion layer and on the interior microstructure. Samples were extracted from the Hot Isostatic Pressed (HIPped) components for tensile testing at both room and elevated temperatures. The components were scanned to assess the geometrical shrinkages due to Hot Isostatic Pressing (HIPping). An oversized blisk was also produced based on the measurements as a demonstrator component. In addition, a further study was carried out on a novel idea that used a solid IN718 disk in the centre of the blisk to create a multi-material component.

机译：CM247LC的研究使用了传统的近距离成形热等静压（NNSHIP）和牺牲性低碳钢模具的方法，该方法是使用选择性激光熔化（SLM）构建的，以生产成形的CM247LC叶片。对微观结构的评估集中在两个外部组件上，以确定铁扩散层的深度以及内部微观结构。从热等静压（HIPped）组件中提取样品，以便在室温和高温下进行拉伸测试。扫描组件以评估由于热等静压（HIPping）引起的几何收缩。根据测量结果，还产生了超大的叶栅作为演示器组件。此外，对一个新的想法进行了进一步的研究，该想法使用了位于叶轮中心的实心IN718圆盘来创建多材料组件。

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期刊名称 Micromachines
作者
Xiqian Wang; Luke N. Carter; Nicholas J. E. Adkins; Khamis Essa; Moataz M. Attallah;
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作者单位

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年(卷),期 2020(11),5
年度 2020
页码 -1
总页数 16
原文格式 PDF
正文语种
中图分类
关键词
selective laser melting; hot isostatis pressing; hybrid manufacturing; CM247LC; nickel superalloys; multi-material; blisks;

机译：选择性激光熔化;等静压热;混合制造;CM247LC;镍合金;多材料;泡沫;

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专利

1. Incremental Manufacturing: Model-based part design and process planning for Hybrid Manufacturing of multi-material parts [J] . Ann-Kathrin Reichler, Roman Gerbers, Paul Falkenberg, Procedia CIRP . 2019,第5期

机译：增量制造：基于模型的零件设计和工艺计划，用于多材料零件的混合制造
2. High-quality manufacturing method of complicated castings based on multi-material hybrid moulding process [J] . Li-min Liu, Zhong-de Shan, Feng Liu, China Foundry . 2018,第5期

机译：基于多材料混合成型工艺的复杂铸件的高质量制造方法
3. Focus shift analysis, to manufacture dense and crack-free SLM-processed CM247LC samples [J] . Gerstgrasser Marcel, Cloots Michael, Stirnimann Josef, Journal of Materials Processing Technology . 2021,第1期

机译：焦点分析，制造致密和无裂缝的SLM加工CM247LC样品
4. Incremental Manufacturing: Model-based part design and process planning for Hybrid Manufacturing of multi-material parts [C] . Ann-Kathrin Reichler, Roman Gerbers, Paul Falkenberg, CIRP Conference on Intelligent Computation in Manufacturing Engineering . 2019

机译：增量制造：多材料零件混合制造的基于模型的零件设计和过程规划
5. Additive Manufacturing of Application-Based Multi-Material Structures Via LensTM Process: Build Strategies and Understanding Processing Challenges [D] . Onuike, Bonny. 2019

机译：通过LenSTM过程的基于应用的多材料结构的添加剂制造：构建策略和理解处理挑战
6. A Hybrid Process Integrating Reverse Engineering Pre-Repair Processing Additive Manufacturing and Material Testing for Component Remanufacturing [O] . Xinchang Zhang, Wenyuan Cui, Wei Li, 2019

机译：集成了逆向工程修复前处理增材制造和组件再制造材料测试的混合过程
7. Technological and Economical Assessment of Alternative Process Chains for Blisk Manufacture [O] . Klocke, F., Schmitt, R., Zeis, M., 2015

机译：炸药制造替代工艺链的技术和经济评估
8. T700 Blisk and Impeller Manufacturing Process Development Program. [R] . Hunter, W. A., Grimmer, G. A. 1979

机译：T700 Blisk和叶轮制造工艺开发计划。

Novel Hybrid Manufacturing Process of CM247LC and Multi-Material Blisks

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