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Numerical Simulation and Hot Isostatic Pressing Technology of Powder Titanium Alloys: A Review

Jianglei Cui, Xiaolong Lv, Hanguang Fu

2025Metals5 citationsDOIOpen Access PDF

Abstract

Titanium and its alloys have been widely used in high-end fields such as aerospace and biomedical engineering due to their excellent corrosion resistance and comprehensive mechanical properties. However, traditional titanium alloy processing technologies suffer from low material utilization and numerous defects. The emergence of near-net shape forming technology for powder titanium alloys via hot isostatic pressing (HIP) has broken through the limitations of traditional casting and forging, significantly improving the mechanical properties of titanium alloy materials, increasing material utilization, and shortening the production cycle of products. The application of numerical simulation technology has provided a scientific basis for the design of capsules and cores of complex high-performance components and has offered theoretical support for the densification of powders under thermomechanical coupling, becoming an essential foundation for achieving controllable shape and properties of components. This paper introduces the characteristics and process flow of HIP technology for powder titanium alloys, summarizes the current development status and research achievements of this technology both domestically and internationally, elaborates on the research progress of numerical simulation of HIP, and concludes with an analysis of the existing technological challenges and possible solutions, as well as an outlook on future development directions.

Topics & Concepts

Hot isostatic pressingMaterials sciencePressingMetallurgyTitanium alloyTitaniumComposite materialSinteringAlloyPowder Metallurgy Techniques and MaterialsAdvanced materials and compositesMetal and Thin Film Mechanics