Ti alloys,as leading lightweight and high-strength metallic materials,exhibit significant application potential in aerospace,marine engineering,biomedical,and other industries. However,the lack of fundamental understanding of the microstructure−property relationship results in prolonged research and development (R&D) cycles,hindering the optimization of the performance of Ti alloys. Recently,the advent of high-throughput experimental (HTE) technology has shown promise in facilitating the efficient and demand-driven development of next-generation Ti alloys. This work reviews the latest advancements in HTE technology for Ti alloys. The high-throughput preparation (HTP) techniques commonly used in the fabrication of Ti alloys are addressed,including diffusion multiple,additive manufacturing (AM),vapor deposition and others. The current applications of high-throughput characterization (HTC) techniques in Ti alloys are shown. Finally,the research achievements in HTE technology for Ti alloys are summarized and the challenges faced in their industrial application are discussed.
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