两种镍基单晶高温合金组织演变和再结晶行为

徐福泽, 蔺永诚, 马德新, 何道广, 赵运兴, 李侣, 程博文, 邓阳丕

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中国高校科技期刊信息汇聚平台
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材料工程 ›› 2025, Vol. 53 ›› Issue (1) : 110-120. DOI: 10.11868/j.issn.1001-4381.2024.000381
研究论文

两种镍基单晶高温合金组织演变和再结晶行为

作者信息 +

Microstructure evolution and recrystallization behavior of two nickel-based single crystal superalloys

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摘要

以单晶高温合金CMSX-4和DD5为研究对象,设计并制备了一种含5级平台的单晶试板铸件,选取晶体取向基本相同的铸件研究其在经1300 ℃/2 h和1310 ℃/4 h两种固溶热处理后的再结晶行为。结果表明:CMSX-4比DD5具有更强的再结晶倾向。经1300 ℃固溶热处理后,CMSX-4单晶试板在第2~5级平台下端转角处均出现了再结晶现象,且随着固溶热处理温度的升高,再结晶的面积越大。而DD5单晶试板经1300 ℃固溶热处理后并未出现再结晶现象,当固溶温度升至1310 ℃时,仅在第4级外侧平台发现了较小面积的再结晶。铸态和固溶热处理态的CMSX-4合金显微缩孔和共晶组织含量均大于DD5合金。更高含量的共晶组织和显微缩孔为CMSX-4铸件提供了更多的再结晶形核位置和数量,而高于γ′相溶解温度的固溶热处理减弱了粗大γ′相对再结晶长大的钉扎阻碍作用,高熔点的碳化物以及残余共晶成为阻碍再结晶长大的重要影响因素。此外,高含量的Co元素降低了CMSX-4合金的层错能,使其表现出更高的再结晶倾向。

Abstract

This study focuses on the single crystal (SC) superalloys CMSX-4 and DD5, designing and fabricating a SC test plate casting with five distinct stages. Castings with the same crystal orientation are selected to investigate their recrystallization (RX) behavior after solution heat treatment at 1300 ℃ for 2 h and 1310 ℃ for 4 h. The results indicate that CMSX-4 exhibits a stronger tendency for RX compared to DD5. Following a solution heat treatment at 1300 ℃, the CMSX-4 SC test plate displayed RX at the lower corners of 2-5 stage platforms, with the extent of RX expanding as the solution heat treatment temperature rose. Conversely, no RX was detected in the DD5 SC test plate post-treatment at 1300 ℃. Elevating the solution temperature to 1310 ℃ results in only a minor area of RX on the outer platform of the fourth stage in the DD5 SC test plate. The micro-shrinkage porosity and eutectic content of the as-cast and solution heat treated CMSX-4 alloy are both higher than those of the DD5 alloy. The higher content of eutectic and micro-shrinkage porosity provides more nucleation sites and quantities for RX in the CMSX-4 alloy, while the solution heat treatment temperatures above the γ' phase dissolution temperature weakens the pinning effect of coarse γ' phase on RX growth, and high melting point carbides and residual eutectic become important factors hindering RX growth. In addition, the high content of Co element reduces the stacking fault energy of the CMSX-4 alloy, making it with a high recrystallization tendency.

关键词

单晶高温合金 / CMSX-4 / DD5 / 再结晶 / 塑性应变

Key words

single crystal superalloy / CMSX-4 / DD5 / recrystallization / plastic strain

中图分类号

TG146

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EndNote

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徐福泽 , 蔺永诚 , 马德新 , . 两种镍基单晶高温合金组织演变和再结晶行为. 材料工程. 2025, 53(1): 110-120 https://doi.org/10.11868/j.issn.1001-4381.2024.000381
Fuze XU, Yongcheng LIN, Dexin MA, et al. Microstructure evolution and recrystallization behavior of two nickel-based single crystal superalloys[J]. Journal of Materials Engineering. 2025, 53(1): 110-120 https://doi.org/10.11868/j.issn.1001-4381.2024.000381

参考文献

列表( 原文顺序 | 文献年度倒序 | 文中引用次数倒序 ) 可视化分析
[1]
张健,王莉,王栋,等.镍基单晶高温合金的研发进展[J].金属学报201955(9):1077-1094.
ZHANG J WANG L WANG D, et al. Recent progress in research and development of nickel-based single crystal superalloys[J]. Acta Metallurgica Sinica201955(9):1077-1094.
本文引用 [1]
[2]
肖久寒,姜卫国,李凯文,等.利用引晶技术制备大尺寸镍基单晶涡轮导向叶片[J].航空材料学报202343(3):22-31.
XIAO J H JIANG W G LI K W, et al. Manufacturing of large size nickel-based single crystal turbine guide vanes by grain continuator technology[J]. Journal of Aeronautical Materials202343(3):22-31.
本文引用 [1]
[3]
XU F Z LIN Y C MA D X, et al. Effects of crystal orientation and external stress on the static recrystallization behavior of an Ni-based single-crystal superalloy[J].Materials202417(13):3123.
本文引用 [1]
[4]
HAN C ZHOU M ZOU L, et al. Study on subsurface damage and recrystallization of single crystal superalloy in scratching with single diamond grain[J]. Journal of Manufacturing Processes202281:301-310.
本文引用 [1]
[5]
张兵,刘德林,陶春虎,等.表面再结晶对单晶高温合金SRR99中温持久性能及断裂行为的影响[J].航空材料学报201232(6):85-89.
ZHANG B LIU D L TAO C H, et al. Influence of surface recrystallization on intermediate-temperature stress rupture property and fracture behavior of single crystal superalloy SRR99[J]. Journal of Aeronautical Materials201232(6):85-89.
本文引用 [1]
[6]
熊继春,李嘉荣,孙凤礼,等.单晶高温合金DD6再结晶组织及其对持久性能的影响[J].金属学报201450(6):737-743.
XIONG J C LI J R SUN F L, et al. Microstructure of recrystallization and their effects on stress rupture property of single crystal superalloy DD6[J]. Acta Metallurgica Sinica201450(6):737-743.
[7]
韩梅,谢洪吉,李嘉荣,等.再结晶对DD6单晶高温合金轴向高周疲劳性能的影响[J].材料工程201947(6):161-168.
HAN M XIE H J LI J R, et al. Effect of recrystallization on axial high cycle fatigue properties of DD6 single crystal superalloy[J]. Journal of Materials Engineering201947(6):161-168.
本文引用 [1]
[8]
LIN S CHEN K ZENG Q, et al. A method for increasing the supersolvus critical strain for recrystallization in single-crystal superalloys[J]. Materials Research Letters202311(10):856-862.
本文引用 [1]
[9]
LI Z XIONG J XU Q, et al. Deformation and recrystallization of single crystal nickel-based superalloys during investment casting[J]. Journal of Materials Processing Technology2015217:1-12.
本文引用 [1]
[10]
PORTER A RALPH B. The recrystallization of nickel-base superalloys[J]. Journal of Materials Science198116 (3):707-713.
本文引用 [1]
[11]
BOND S D MARTIN J W. Surface recrystallization in a single crystal nickel-based superalloy[J]. Journal of Materials Science198419: 3867-3872.
本文引用 [1]
[12]
陶春虎, 张卫方, 李运菊,等. 定向凝固和单晶高温合金的再结晶[J].失效分析与预防20061(4):1-9.
TAO C H ZHANG W F LI Y J, et al. Recrystallization of directionally solidified and single crystal superalloy[J]. Failure Analysis and Prevention20061(4):1-9.
本文引用 [1]
[13]
ZHANG B TAO C H LU X, et al. Recrystallization of single crystal nickel-based superalloy[J]. Journal of Iron Steel Research International200916 (6):75-79.
本文引用 [1]
[14]
WANG Q HU B ZHAO H, et al. Evolution of static recrystallization microstructure caused by residual strain of an Al-richen Ni-based single crystal superalloy[J]. Materials Science and Engineering: A2024894:146188.
本文引用 [1]
[15]
赵鹏, 谢光, 段慧超, 等. 两种高代次镍基单晶高温合金热机械疲劳中的再结晶行为[J]. 金属学报202359(9):1221-1229.
ZHAO P XIE G DUAN H C, et al. Recrystallization during thermo-mechanical fatigue of two high-generation ni-based single crystal superalloys[J]. Acta Metallurgica Sinica202359(9):1221-1229.
本文引用 [1]
[16]
余创, 张海涛, 邹晶, 等. Cr对Al-Cu-Mg-Ag合金动态再结晶行为和力学性能的影响[J]. 材料工程202452(10):80-89.
YU C ZHANG H T ZOU J, et al. Effect of Cr on dynamic recrystallization behavior and mechanical properties of Al-Cu-Mg-Ag alloys[J]. Journal of Materials Engineering202452(10):80-89.
本文引用 [1]
[17]
LIU D CAI H MU R, et al. Effect of grit-blasting on the recrystallization behavior of DD6 single-crystal superalloy coated with NiCoCrAlYHf [J]. Journal of Alloys and Compounds2024983:173861.
本文引用 [1]
[18]
濮晟, 谢光, 郑伟, 等. W和Re对固溶态镍基单晶高温合金变形和再结晶的影响[J]. 金属学报201551(2):239-248.
PU S XIE G ZHENG W, et al. Effect of W and Re on deformation and recrystallization of solution heat treated Ni-based single crystal superalloys [J]. Acta Metall Sin201551(2):239-248.
本文引用 [2]
[19]
LUO L RU Y QIN L, et al. Effects of alloyed aluminum and tantalum on the topological inversion behavior of Ni-based single crystal superalloys at high temperature[J]. Advanced Engineering Materials201921:1800793.
[20]
WANG L XIE G ZHANG J, et al. On the role of carbides during the recrystallization of a directionally solidified nickel-base superalloy[J]. Scripta Materialia200655: 457-460.
[21]
SHANG Z NIU H WEI X, et al. Microstructure and tensile behavior of nickel-based single crystal superalloys with different Re contents[J]. Journal of Materials Research and Technology202218:2458-2469.
本文引用 [1]
[22]
CUI R HUANG Z. Microstructual evolution and stability of second generation single crystal nickel-based superalloy DD5[J]. Transactions of Nonferrous Metals Society of China201626(8):2079-2085.
本文引用 [1]
[23]
YANG S GAO S XUE W, et al. Microstructural evolution and elemental interdiffusion behaviour near the interface of NiAlTa alloy and single crystal superalloy DD5 at 1000 ℃, 1050 ℃, and 1100 ℃[J]. Surface and Coatings Technology2023473:130035.
[24]
CHENG T WANG Y ZHAO Y, et al. Effect of remelting solution heat treatment on microstructure evolution of nickel-based single crystal superalloy DD5[J]. Materials Characterization2022192:112186.
本文引用 [1]
[25]
PANWISAWAS C MATHUR H GEBELIN J, et al. Prediction of recrystallization in investment cast single-crystal superalloys[J]. Acta Materialia201361(1):51-66.
本文引用 [1]
[26]
HUANG K MARTHINSEN K ZHAO Q, et al. The double-edge effect of second-phase particles on the recrystallization behaviour and associated mechanical properties of metallic materials[J]. Progress in Materials Science201892:284-359.
[27]
ZHANG H GONG Y LIANG C, et al. Effect of thermal exposure on subsurface microstructure evolution of nickel-based single crystal superalloy DD5 after milling[J]. Journal of Manufacturing Processes202397:210-219.
本文引用 [1]
[28]
濮晟, 谢光, 王莉, 等. Re和W对铸态镍基单晶高温合金再结晶的影响[J]. 金属学报201652(5):538-548.
SHENG P XIE G WANG L, et al. Effect of Re and W on recrystallization of as-cast Ni-based single crystal superalloys [J]. Acta Metallurgica Sinica201652(5):538-548.
本文引用 [1]
[29]
LINK T ZABLER S EPISHIN A, et al. Synchrotron tomography of porosity in single-crystal nickel-base superalloys[J]. Materials Science and Engineering: A2006425(1):47-54.
本文引用 [1]
[30]
MIRAK A FATHI M. Effects of solidification rate and heat treatment on microstructure characterization and hot tensile strength of single crystal CMSX-4 superalloy[J]. Materials Characterization2022194:112449.
本文引用 [2]
[31]
LECOMTE-BECKERS J. Study of microporosity formation in nickel-base superalloys[J]. Metallurgical Transactions A198819(9):2341-2348.
本文引用 [1]
[32]
LIU J L MENG J YU J J, et al. Influence of solidification conditions and alloying elements Re and Ti on micropores formed during homogenization of Ni base single crystal superalloy[J]. Journal of Alloys and Compounds2018746:428-434.
本文引用 [2]
[33]
CHEN Q Z JONES N KNOWLES D M. The microstructures of base/modified RR2072 SX superalloys and their effects on creep properties at elevated temperatures[J]. Acta Materialia200250(5):1095-1112.
本文引用 [1]
[34]
HUMPHREYS F J HATHERLY M. Recrystallization and related annealing phenomena[M]. Oxford: Pergamon, 1996.
本文引用 [3]
[35]
WANG L XIE G LOU L H. Effect of carbon content on the recrystallization of a single crystal nickel-based superalloy[J]. Materials Letters2013109:154-157.
本文引用 [1]
[36]
WANG L WANG D LIU T, et al. Effect of minor carbon additions on the high-temperature creep behavior of a single-crystal nickel-based superalloy[J]. Materials Characterization2015104:81-85.
本文引用 [1]
[37]
王莉. 定向凝固镍基高温合金再结晶行为研究[D]. 沈阳:中国科学院金属研究所, 2009.
WANG L. Studies on recrystallization in directionally solidified nickel-base superalloys[D]. Shenyang:Institute of Metals, Chinese Academy of Sciences, 2009.
本文引用 [2]
[38]
MATHUR H N JONES N C N RAE C M F, et al. A study on the effect of composition, and the mechanisms of recrystallisation in single crystal Ni-based superalloys[C]∥MATEC Web of Conferences. Hyères, France :EDP Sciences, 201414: 07003.
本文引用 [3]
[39]
徐福泽, 蔺永诚, 马德新, 等. 单晶高温合金CMSX-4铸件再结晶[J]. 材料工程202351(10):42-50.
XU F Z LIN Y C MA D X, et al. Recrystallization of single crystal superalloy CMSX-4 casting[J]. Journal of Materials Engineering202351(10):42-50.
本文引用 [2]
[40]
李忠林. 镍基单晶高温合金静态再结晶实验研究及数值模拟[D].北京:清华大学, 2016.
LI Z L. Experimental research and numerical simulation on primary recrystallization of nickel-based single crystal superalloy[D]. Beijing:Tsinghua University, 2016.
[41]
XIONG W HUANG Z XIE G, et al. The effect of deformation temperature on recrystallization in a Ni-based single crystal superalloys[J]. Materials & Design2022222:111042.
本文引用 [1]

基金

国家自然科学基金项目(91860103)
国家自然科学基金项目(92060104)
中南大学研究生科研创新项目(自主探索)(1053320184004)
深圳市海外高层次人才资金资助项目(KQTD2015032716463668)
广东省引进创新创业团队项目资助项目(607264877417)

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