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粉末特性對(duì)鎳基粉末冶金高溫合金組織及熱變形行為的影響

發(fā)布人：上海艾荔艾合金股份有限公司www.shailiai.cn 更新時(shí)間：2016-01-29

粉末特性對(duì)鎳基粉末冶金高溫合金組織及熱變形行為的影響Effects of powder characteristics on microstructure and deformation activation energy of nickel based superalloy

分別采用氬氣霧化(Argon atomization, AA)和等離子旋轉(zhuǎn)電極(Plasma rotating electrode process，PREP)兩種方法制備具有不同特性的鎳基高溫合金粉末，然后在相同條件下對(duì)兩種粉末進(jìn)行熱等靜壓制備成塊體材料(A-HIP及P-HIP)。分別對(duì)粉末和塊體材料進(jìn)行顯微組織分析和形貌表征，并對(duì)熱等靜壓材料在溫度為1000~1100 ℃下、應(yīng)變速率為0.01~1.0 s^-1下進(jìn)行熱壓縮實(shí)驗(yàn)，利用采集的應(yīng)力、應(yīng)變參數(shù)，通過(guò)迭代和線性回歸的方法計(jì)算熱激活能并構(gòu)建本構(gòu)方程，并利用所建立的本構(gòu)方程預(yù)測(cè)合金在不同應(yīng)變下的應(yīng)力。結(jié)果表明：PREP粉末表面潔凈度、球形度和粒徑均勻度要比AA粉末的好，其表面氧含量也相對(duì)較低，僅為0.0079%，而AA粉末中氧含量為0.0139%(質(zhì)量分?jǐn)?shù))；相比P-HIP，A-HIP中分布著較多的原始顆粒邊界和孔洞，原始顆粒邊界的主要組成是大尺寸的γ′相和碳氧化物顆粒；A-HIP的平均晶粒尺寸為8.59 μm, P-HIP的平均晶粒尺寸為12.54 μm；A-HIP的強(qiáng)化相γ′的體積分?jǐn)?shù)(43.91%)與P-HIP的強(qiáng)化相γ′體積分?jǐn)?shù)(43.65%)基本相等。兩種材料的激活能分別為1012.9 kJ/mol和757.1 kJ/mol，并采用雙曲正弦Arrhenius模型構(gòu)建不同應(yīng)變下的本構(gòu)方程并預(yù)測(cè)不同變形條件下的真應(yīng)力，其與實(shí)驗(yàn)值間的絕對(duì)誤差分別為6.46%和4.87%。A-HIP在壓縮過(guò)程出現(xiàn)宏觀裂紋，原始顆粒邊界是壓縮裂紋產(chǎn)生主要因素之一，且裂紋沿原始顆粒邊界進(jìn)行擴(kuò)展。

A new Nickel based superalloy powder was fabricated by methods of argon atomization (AA) and plasma rotating electrode process (PREP), followed by hot isostatic pressing (HIP) under the same conditions. Microstructure analyzing of both as-powder and as-HIPed was carried out. The hot compression tests of two different materials were conducted using a thermal simulator under the deformation conditions at temperature range from 1000 to 1100 ℃ and strain rates range of 0.01-1.0 s^-1. The deformation activity energy and constitutive equations were established to predict the true stress at different strains under deformation conditions. The results show that the surface cleanliness and homogeneity of the powder prepared by PREP are much better than those prepared by AA. The oxygen content of argon atomization powder is 0.0139% (mass fraction), while the oxygen content of PREP powder is 0.0079%. The prior particle boundary in as-HIPed fabricated by AA is more severe than that by PREP, which consists of γ′ phase with large size, carbides and oxidizes. The average grain size of A-HIP is determined as 8.59 μm, while that of the P-HIP is 12.54 μm. The volume fractions of γ′ phase of A-HIP and P-HIP are 43.92% and 43.65%, respectively. The deformation activation energies are calculated as 1012.9 kJ/mol (for AA) and 852.9 kJ/mol (for PREP), respectively. In addition, the constitutive equations for two alloys are also developed to predict the true stress at different deformation conditions with the absolute error of 6.46% and 4.87%. The PPB is one of the main reasons that leads to the occurrence of cracking, which propagates along the PPB.

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