Acta Metall Sin  1997, Vol. 33 Issue (11): 1227-1232    DOI:

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STATIC CREEP AND CYCLIC CREEP BEHAVIOUR OF SiC_w/6061Al AND SiC_p/2024Al COMPOSITES AT ELEVATED TEMPERATURE

LIU Pilin;WANG Zhongguang(State Key Laboratory for Fatigue and Fracture of Materials;Institute of Metal Research;The Chinese Academy of Sciences;Shenyang 110015); WANG Wenlong (Shanghai Jiaotong University;Shanghai 200030);TODA Hiroyuki(Suzuki Motor Corp.Hamamatsu-nishi;P. O. Box 1;432-91 Hamamatsu; Japan);KOBA YASHI Toshiro(Toyohashi University of Technology;Toyohashi 441; Japan)

LIU Pilin;WANG Zhongguang(State Key Laboratory for Fatigue and Fracture of Materials;Institute of Metal Research;The Chinese Academy of Sciences;Shenyang 110015); WANG Wenlong (Shanghai Jiaotong University;Shanghai 200030);TODA Hiroyuki(Suzuki Motor Corp.Hamamatsu-nishi;P. O. Box 1;432-91 Hamamatsu; Japan);KOBA YASHI Toshiro(Toyohashi University of Technology;Toyohashi 441; Japan). STATIC CREEP AND CYCLIC CREEP BEHAVIOUR OF SiC_w/6061Al AND SiC_p/2024Al COMPOSITES AT ELEVATED TEMPERATURE. Acta Metall Sin, 1997, 33(11): 1227-1232.

Abstract References Related Articles Recommended Metrics Download:  PDF(545KB)  Export:  BibTeX | EndNote (RIS)       Abstract  The high temperature creep and cyclic creep behaviours of SiCw/6061Al and SiCp/2024Al composites were studied at 298℃. It was found that SiCw/6061Al composite showed better creep resistance but lower creep threshold stress as compared to SiCp/2024Al composite.Both composites showed cyclic creep retardation(CCR)in the tested stress region, while the CCR for SiCp/2024Al composite was more pronounced. For the SiCw/6061Alcomposite,the minimum cyclic creep rate decreased first and then increased with increasing the unloading amount, while for the SiCp/2024Al,the minimum cyclic creep rate decreased monotonically with increasing unloading amount. Key words:  SiC/Al alloy composite      creep      cyclic creep      Received:  18 November 1997      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1997/V33/I11/1227 1Gonzalez—DoncleG,ShebyOD.ActaMetallMater,1993;41:2797 2CadekJ,OikawaH,SustekV.MaterSciEng,1995;190A:9 3PandyAB,MishraRS,MahajianYR.MetallMaterTrans,1996;27A:305 4SherbyOD,BurkePM.ProgMaterSci,1968;13:325 5NardoneVC,KimmerleWL,TienJK.MetallTrans,1986;17A:1577 6YangZA,WangZG,WangSQ.MaterSciEng,1988;102A:17 7YangZA,WangZR,HuXB,WangZG.ActaMetallMater,1993;41:933 8PurushothamanS,TienJK.ActaMetall,1978;26:519 9PandeyAB,MishraRS,MahajianYR.ActaMetallMater,1992;40:2045 10LiuPilin,WangZhongguang,WangWenlong.MaterSciTechnol,1997;13(8): 11LeeJK,NamSW.JMaterSci,1988;23:2051 12EvansJT,ParkinsRN.ActaMetall,1976;24:511+ [1] BAI Jiaming, LIU Jiantao, JIA Jian, ZHANG Yiwen. Creep Properties and Solute Atomic Segregation of High-W and High-Ta Type Powder Metallurgy Superalloy[J]. 金属学报, 2023, 59(9): 1230-1242. [2] FENG Qiang, LU Song, LI Wendao, ZHANG Xiaorui, LI Longfei, ZOU Min, ZHUANG Xiaoli. Recent Progress in Alloy Design and Creep Mechanism of γ'-Strengthened Co-Based Superalloys[J]. 金属学报, 2023, 59(9): 1125-1143. [3] CHEN Jia, GUO Min, YANG Min, LIU Lin, ZHANG Jun. Effects of W Concentration on Creep Microstructure and Property of Novel Co-Based Superalloys[J]. 金属学报, 2023, 59(9): 1209-1220. [4] LI Xiaolin, LIU Linxi, LI Yating, YANG Jiawei, DENG Xiangtao, WANG Haifeng. Mechanical Properties and Creep Behavior of MX-Type Precipitates Strengthened Heat Resistant Martensite Steel[J]. 金属学报, 2022, 58(9): 1199-1207. [5] GAO Chuan, DENG Yunlai, WANG Fengquan, GUO Xiaobin. Effect of Creep Aging on Mechanical Properties of Under-Aged 7075 Aluminum Alloy[J]. 金属学报, 2022, 58(6): 746-759. [6] PENG Zichao, LIU Peiyuan, WANG Xuqing, LUO Xuejun, LIU Jian, ZOU Jinwen. Creep Behavior of FGH96 Superalloy at Different Service Conditions[J]. 金属学报, 2022, 58(5): 673-682. [7] YANG Zhikun, WANG Hao, ZHANG Yiwen, HU Benfu. Effect of Ta Content on High Temperature Creep Deformation Behaviors and Properties of PM Nickel Base Superalloys[J]. 金属学报, 2021, 57(8): 1027-1038. [8] ZHANG Nizhen, MA Xindi, GENG Chuan, MU Yongkun, SUN Kang, JIA Yandong, HUANG Bo, WANG Gang. Effect of Adding Ag on the Nanoindentation Behavior of Cu-Zr-Al-Based Metallic Glass[J]. 金属学报, 2021, 57(4): 567-574. [9] XU Jinghui, LI Longfei, LIU Xingang, LI Hui, FENG Qiang. Thermal-Stress Coupling Effect on Microstructure Evolution of a Fourth-Generation Nickel-Based Single-Crystal Superalloy at 1100oC[J]. 金属学报, 2021, 57(2): 205-214. [10] GUO Qianying, LI Yanmo, CHEN Bin, DING Ran, YU Liming, LIU Yongchang. Effect of High-Temperature Ageing on Microstructure and Creep Properties of S31042 Heat-Resistant Steel[J]. 金属学报, 2021, 57(1): 82-94. [11] WU Yupeng, ZHANG Bo, LI Jingming, ZHANG Shuangnan, WU Ying, WANG Yumin, CAI Guixi. Ultrasonic Detection for Fiber Broken in Aero-Engine Integral Bladed Ring[J]. 金属学报, 2020, 56(8): 1175-1184. [12] LIU Tian, LUO Rui, CHENG Xiaonong, ZHENG Qi, CHEN Leli, WANG Qian. Investigations on the Accelerated Creep Testing of Alumina-Forming Austenitic Stainless Steel[J]. 金属学报, 2020, 56(11): 1452-1462. [13] WU Jing,LIU Yongchang,LI Chong,WU Yuting,XIA Xingchuan,LI Huijun. Recent Progress of Microstructure Evolution and Performance of Multiphase Ni3Al-Based Intermetallic Alloy with High Fe and Cr Contents[J]. 金属学报, 2020, 56(1): 21-35. [14] HU Bin,LI Shusuo,PEI Yanling,GONG Shengkai,XU Huibin. Influence of Small Misorientation from <111> on Creep Properties of a Ni-Based Single Crystal Superalloy[J]. 金属学报, 2019, 55(9): 1204-1210. [15] Wenshu TANG,Junfeng XIAO,Yongjun LI,Jiong ZHANG,Sifeng GAO,Qing NAN. Effect of Re-Heat Rejuvenation Treatment on γ′ Microstructure of Directionally SolidifiedSuperalloy Damaged by Creep[J]. 金属学报, 2019, 55(5): 601-610. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed