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High-efficiency forming processes for complex thin-walled titanium alloys components: state-of-the-art and perspectives
Author(s) -
Kehuan Wang,
Liliang Wang,
Kailun Zheng,
He Zhang,
Denis J. Politis,
Gang Liu,
Shijian Yuan
Publication year - 2020
Publication title -
international journal of extreme manufacturing
Language(s) - English
Resource type - Journals
eISSN - 2631-8644
pISSN - 2631-7990
DOI - 10.1088/2631-7990/ab949b
Subject(s) - superplasticity , materials science , aerospace , titanium alloy , forming processes , mechanical engineering , hot stamping , microstructure , process (computing) , hot isostatic pressing , process engineering , manufacturing engineering , computer science , alloy , metallurgy , engineering , aerospace engineering , operating system
Complex thin-walled titanium alloy components play a key role in the aircraft, aerospace and marine industries, offering the advantages of reduced weight and increased thermal resistance. The geometrical complexity, dimensional accuracy and in-service properties are essential to fulfill the high-performance standards required in new transportation systems, which brings new challenges to titanium alloy forming technologies. Traditional forming processes, such as superplastic forming or hot pressing, cannot meet all demands of modern applications due to their limited properties, low productivity and high cost. This has encouraged industry and research groups to develop novel high-efficiency forming processes. Hot gas pressure forming and hot stamping-quenching technologies have been developed for the manufacture of tubular and panel components, and are believed to be the cut-edge processes guaranteeing dimensional accuracy, microstructure and mechanical properties. This article intends to provide a critical review of high-efficiency titanium alloy forming processes, concentrating on latest investigations of controlling dimensional accuracy, microstructure and properties. The advantages and limitations of individual forming process are comprehensively analyzed, through which, future research trends of high-efficiency forming are identified including trends in process integration, processing window design, full cycle and multi-objective optimization. This review aims to provide a guide for researchers and process designers on the manufacture of thin-walled titanium alloy components whilst achieving high dimensional accuracy and satisfying performance properties with high efficiency and low cost.

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