INCREASED STRENGTHENING OF AUSTENITIC ALLOYS THROUGH DUAL AGING

A. Ma
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Abstract

A study of the effect of solution treatment, single and duplex isothermal aging heat treatments on an Fe-Ni-Ti-Al austenitic alloy hardened by ..gamma..' precipitation is reported. Sequential heat treatments were performed and studied in order to develop a systematic process for achieving very high strength austenite through thermal processing alone. Room temperature tensile tests were carried out. Alloys receiving double aging treatments were found to achieve mechanical properties superior to those aged at a given temperature. An optimum level of yield strength (172 Ksi) along with good elongation (20%) was obtained from a two-step aging process. Structural examination indicated that overaging was retarded by secondary aging. The formation and growth of cellular precipitates were suppressed. Resistivity changes were measured on wire specimens to study the early stages of precipitation. Resistivity peaks were observed during secondary aging indicating evidence of secondary precipitation.
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通过双重时效提高奥氏体合金的强度
固溶处理、单次和双次等温时效热处理对Fe-Ni-Ti-Al奥氏体合金的影响研究’降水报告。为了开发一个系统的过程,通过单独的热处理来获得非常高强度的奥氏体,进行了连续的热处理和研究。进行了室温拉伸试验。经双重时效处理的合金的机械性能优于在给定温度下时效的合金。通过两步时效工艺,获得了最佳的屈服强度(172 Ksi)和良好的伸长率(20%)。组织检查表明,二次时效延缓了过时效。抑制了细胞相的形成和生长。通过测量金属丝试样的电阻率变化来研究析出的早期阶段。在二次时效期间观察到电阻率峰,表明二次沉淀的证据。
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