Influence of Cast Dimension on Rotary Bending High Cycle Fatigue Properties of Single Crystal Superalloy

Wright P K, Jain M, Cameron D. High Cycle Fatigue in a Single Crystal Superalloy: Time Dependence at Elevated Temperature [C]. Green K A, Pollok T M, Harda H, et al. Superalloys 2004. Pennsylvania: TMS, 2004: 657. Lukas P, Kunz L, Svoboda M. High Cycle Fatigue of Superalloy Single Crystals at High Mean Stress [J]. Materials Science and Engineering, 2004, 387–388A: 505. Lamm M, Singer R F. The effect of Casting Conditions on the High-Cycle Fatigue Properties of the Single-Crystal Nickel-Base Superalloy PWA1483 [J]. Metallurgical and Materials Transactions, 2007, 38A(6): 1177. Wilson BC, Cutler E R, Fuchs G E. effect of Solidification Parameters on the Microstructures and Properties of CMSX-10 [J]. Materials Science and Engineering, 2008, 479A(1): 356. Zhang W M, Du W, Fu H Z. effect of Solidification Condition on Microstructure and Mechanical Properties of Single Crystal Superalloy [J]. Journal of Material Science and Technology, 2001, 17(1): 89. Liu C B, Shen J, Zhang J, et al. effect of Withdrawal Rates on Microstructure and Creep Strength of a Single Crystal Superalloy Processed by LMC [J]. Journal of Material Science and Technology, 2010, 26(4): 3. SHI Zhen-xue, HAN Mei, LIU Shi-zhong, etal. Effect of Sample Sizeon Microstructureof a Single Crystal Superalloy [J]. Journal of Iron and Steel Research, 2012, 24(4): 28 (in Chinese). ASTM, Annual book of ASTM standard, ASTM standard E606, Vol. 03.01, ASTM [M]. Philadelphia, PA, 1996. Shi Z X, Li J R, Liu S Z, et al. High Cycle Fatigue Behavior of the Second Generation Single Crystal Superalloy DD6 [J]. Transac tion Nonferrous Metal Society of China, 2011, 21(5): 998. Chu Z K, Yu J J, Sun X F, et al. High Cycle Fatigue behavior of a Directionally Solidified Ni-Base Superalloy DZ [J]. Materials Science and Engineering, 2008, 496A(1): 951. Müller S, Rösler J, Sommer C, et al. The Influence of Load Ratio, Temperature, Orientation and Hold Time on Fatigue Crack Growth of CMSX-4 [C]. Pollock T M, Kissinger R D, Bowman R R, et al. Superalloys 2000. Warrendale: TMS, 2000: 347. Liu Y, Yu J J, Xu Y, et al. High Cycle Fatigue Behavior of a Single Crystal Superalloy at Elevated Temperatures [J]. Materials Science and Engineering, 2007, 454–455A: 357. Jackon J J, Donachie M J, Henricks R J. effect of Amount (Vf) of Fine γ’ Particle on Creep Property for DS MarM200 + Hf Superalloy [J]. Metallurgical Transaction, 1977, 8A(10): 1. Hino T, Kobayashi T, Koizumi Y. Development of a New Single Crystal Superalloy for Industrial Gas Turbines [C]. Pollock T M, Kissinger R D, Bowman R R, et al. Superalloys 2000. Warrendale: TMS, 2000: 729. Zhang J X, Wang J C, Harada H. The effect of Lattice Misfit on the Dislocation Motion in Superal loy During High Temperature Low Stress Creep [J]. Acta Materialia, 2005, 53(17): 4623. Liu L, Huang T W, Zhang J, et al. Microstructure and Stress Rupture Properties of Single Crystal Superalloy CMSX-2 Under High Thermal Gradient Directional Solidification [J]. Materials Letters, 2007, 61(1): 227. ZHAO Nai-ren, JIN Tao, SUN Xiao-feng, et al. effects of Withdrawal Rate on Microstructure and Mechanical Property of Single Crystal Superalloy SRR99 [J]. Chinese Journal of Materials Research, 2008, 22(1): 46 (in Chinese