本文采用示差扫描量热仪(DSC)系统分析了Ti50Ni40Cu10(at.%)合金的马氏体相变潜热(ΔHB2→B19)和逆马氏体相变潜热(ΔHB19→B2)、相变热滞(ΔT)与固溶温度、退火温度和相变热循环间的关系.结果表明:相变潜热随着固溶化温度的升高而明显降低、随着退火温度的升高则略微降低.相变热滞、逆马氏体相变温度在热循环初期迅速降低,当热循环次数超过2次时则均保持不变;逆马氏体相变潜热(ΔHB19→B2和ΔHB19→B19)随着热循环次数(n<4)的增加有所升高,特别是ΔHB19→B19约增加58%,而热循环次数对马氏体相变温度和潜热ΔHB2→B19则无明显影响.
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