γ-TiA1合金的加工特性及能場(chǎng)輔助技術(shù)研究進(jìn)展

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中圖分類號(hào)：TG506

DOI：10.3969/j.issn.1004-132X.2025.04.001 開放科學(xué)（資源服務(wù)）標(biāo)識(shí)碼（OSID）：

Research Progresses for Machining Characteristics and Field-assisted Techniques of γ -TiAl Alloys

FAN Tao1，2 YAO Changfeng1，2* TAN Liang1，2 1.Key Laboratory of High Performance Manufacturing for Aero Engine，Ministry of Industry and Information Technology，Northwestern Polytechnical University，Xi'an，710072 2.Engieering Research Center of Advanced Manufacturing Technology for Aero Engine，Ministry of Education，Northwestern Polytechnical University，Xi'an，710072

Abstract： γ-TiAl alloys，due to their low density， high specific strength and excellnt high-temperature oxidation resistance had broad application potentials in the aerospace fields. However，due to their high britleness and low room-temperature plasticity，they were considered typical difficult-tomachine materials，with challenges such as high cuting forces， rapid tool wear and surface defects during the machining processes. In recent years， field-assisted machining technologies provided new solutions to these issues. The material properties， machining characteristics，and surface integrity of γ -TiAl alloys were systematically analyzed， with a focus on the research progresses of field-assisted machining technologies，including their applications in reducing cutting forces， extending tool life and improving surface quality. Additionally， the current research limitations and future development trends were sorted out，aiming to provide theoretical and technical references for the eficient machining of γ TiAl alloys.

Key words： γ-TiAl alloy；difficult-to-machine material; surface integrity； field-assisted machining

0 引言

隨著航空航天技術(shù)的快速發(fā)展，下一代高性能航空發(fā)動(dòng)機(jī)對(duì)材料性能提出了更加苛刻的要求，包括更高的比強(qiáng)度、更低的密度、更好的高溫性能和更優(yōu)異的抗氧化能力[1]。（剩余35631字）