金属粉末的冷等静压技术及其最新进展

IF 8.1 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Critical Reviews in Solid State and Materials Sciences Pub Date : 2021-02-23 DOI:10.1080/10408436.2021.1886043

U. M. Attia

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引用次数: 15

摘要

冷等静压(CIP)是一种基于粉末的近净形状技术，用于生产金属和陶瓷部件。CIP通常用于加工陶瓷，但对金属的应用并不广泛。然而，最近在工艺能力和粉末冶金方面的发展使得CIP越来越多地用于高性能金属零件的制造。固态加工、微观结构均匀、形状复杂、加工成本低和工艺可扩展性等优点使CIP成为金属加工的可行途径。此外，以最小的材料浪费生产接近净形状零件的潜力使该工艺在诸如航空航天和汽车等利基应用中得到更广泛的接受。本文从能力和局限性、材料、工具设计和制造、过程建模、后处理和评估等方面评估了该技术的现状。该综述还强调了使用CIP生产金属零件的挑战和研究差距，重点是潜在的改进领域和解决这些挑战的最新进展。

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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Cold-isostatic pressing of metal powders: a review of the technology and recent developments

Abstract Cold-isostatic pressing (CIP) is a powder-based, near-net-shape technology for the production of metal and ceramic components. CIP has been commonly used for processing ceramics, but not as widely used for metals. Recent developments in process capability and powder metallurgy, however, have allowed CIP to be increasingly used in the manufacture of high-performance metal parts. Advantages such as solid-state processing, uniform microstructure, shape complexity, low tooling cost and process scalability have made CIP a viable processing route for metals. In addition, the potential to produce near-net-shape parts with minimal material waste has made the process more widely acceptable in niche applications, such as aerospace and automotive. This review assesses the state of the technology in terms of capabilities and limitations, materials, tool design and fabrication, process modeling, post processing and assessment. The review also highlights challenges and research gaps in using CIP for producing metal parts, with a focus on potential areas of improvement and recent developments that address these challenges.

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来源期刊

Critical Reviews in Solid State and Materials Sciences 物理-材料科学：综合

CiteScore

22.10

自引率

2.80%

发文量

审稿时长

3 months

期刊介绍： Critical Reviews in Solid State and Materials Sciences covers a wide range of topics including solid state materials properties, processing, and applications. The journal provides insights into the latest developments and understandings in these areas, with an emphasis on new and emerging theoretical and experimental topics. It encompasses disciplines such as condensed matter physics, physical chemistry, materials science, and electrical, chemical, and mechanical engineering. Additionally, cross-disciplinary engineering and science specialties are included in the scope of the journal.