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Materials at High Temperatures Volume 32, 2015 - Issue 5
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Original Research Papers

In-plane and out-of-plane constraint effects on creep crack growth rate in Cr–Mo–V steel for wide range of C*

J. W. ZhangKey Laboratory of Pressure Systems and Safety Ministry of Education, East China University of Science and Technology, Shanghai200237, ChinaCorrespondence[email protected]; [email protected]
,
G. Z. WangKey Laboratory of Pressure Systems and Safety Ministry of Education, East China University of Science and Technology, Shanghai200237, ChinaCorrespondence[email protected]; [email protected]
,
F. Z. XuanKey Laboratory of Pressure Systems and Safety Ministry of Education, East China University of Science and Technology, Shanghai200237, China
&
S. T. TuKey Laboratory of Pressure Systems and Safety Ministry of Education, East China University of Science and Technology, Shanghai200237, China
Pages 512-523 | Received 19 Oct 2014, Accepted 16 Nov 2014, Published online: 02 Dec 2014

Citations (22)

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Read on this site (4)

Kai Wang, Guozhen Wang, Shantung Tu & Fuzhen Xuan. (2022) Unified correlation of creep crack growth rate with constraint parameter for different materials. Materials at High Temperatures 39:4, pages 278-289.
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Xiaomin Tan, Guozhen Wang, Shantung Tu & Fuzhen Xuan. (2019) Effects of creep properties of materials on unified creep constraint parameter A for cracked pipes. Materials at High Temperatures 36:5, pages 417-429.
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J. Z. He, G. Z. Wang, S. T. Tu & F. Z. Xuan. (2017) Prediction of creep crack initiation in Cr–Mo–V steel specimens with different geometries. Materials at High Temperatures 34:1, pages 87-96.
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X. Xu, G. Z. Wang, F. Z. Xuan & S. T. Tu. (2016) Effects of creep ductility and notch constraint on creep fracture behavior in notched bar specimens. Materials at High Temperatures 33:2, pages 198-207.
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Articles from other publishers (18)

Guiqiu Liu, Shi Liu, Feng Xin, Yi Zhao, Delong Hu & Yan Zhang. (2022) Three-Dimensional Numerical Simulation of Creep Crack Growth Behavior for 316H Steel Using a Stress-Dependent Model. Mathematical Problems in Engineering 2022, pages 1-11.
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Kai Wang, Guozhen Wang, Shantung Tu & Fuzhen Xuan. (2022) Unified creep constraint parameter solutions for surface cracks in plates under tensile and bending loads. Fatigue & Fracture of Engineering Materials & Structures 45:6, pages 1703-1718.
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Wenchun Jiang, Yun Luo, Baozhu Zhang, S.-H. Li, X.-F. Xie & Shan-Tung Tu. (2020) Characterization of creep constraint effect for brazed joint specimens at crack tip by new constraint parameter A. Theoretical and Applied Fracture Mechanics 109, pages 102707.
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Zhengxin Tang, Hongyang Jing, Lianyong Xu, Lei Zhao, Yongdian Han, Haizhou Li & Ninshu Ma. (2020) Investigation of creep-fatigue crack growth of G115 steel using a novel damage model. International Journal of Mechanical Sciences 183, pages 105827.
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X.M. Tan, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2020) A comparison between two parameter and ductility exhaustion approaches for creep life assessment. Theoretical and Applied Fracture Mechanics 108, pages 102598.
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X.M. Tan, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2019) A creep crack growth life assessment method for pressurized pipes based on a two-parameter approach. Engineering Fracture Mechanics 220, pages 106676.
Crossref
X.M. Tan, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2019) Comparisons of creep constraint and fracture parameter C* of different types of surface cracks in pressurized pipes. International Journal of Pressure Vessels and Piping 172, pages 360-372.
Crossref
F. Chen, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2018) Creep constraint analysis for test specimens with a wide range of dimensions and comparison with constraint of cracked pipes. Engineering Fracture Mechanics 204, pages 454-468.
Crossref
X.M. Tan, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2018) Creep constraint and fracture parameter C∗ for axial semi-elliptical surface cracks with high aspect ratio in pressurized pipes. Engineering Fracture Mechanics 199, pages 358-371.
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J.Z. He, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2018) Prediction of creep crack initiation behavior considering constraint effects for cracked pipes. Engineering Fracture Mechanics 190, pages 213-231.
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H.S. Ma, G.Z. Wang, S. Liu, S.T. Tu & F.Z. Xuan. (2018) Unified constraint parameter solutions for axial and circumferential surface cracks in pressurized pipes under creep condition. Engineering Fracture Mechanics 189, pages 307-329.
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J.Z. He, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2017) Effect of constraint on creep crack initiation time in test specimens in ASTM-E1457 standard. Engineering Fracture Mechanics 176, pages 61-73.
Crossref
Y. Li, G. Z. Wang, F. Z. Xuan & S. T. Tu. (2017) Geometry and Material Constraint Effects on Creep Crack Growth Behavior in Welded Joints. High Temperature Materials and Processes 36:2, pages 155-162.
Crossref
J.Z. He, G.Z. Wang, S.T. Tu & F.Z. Xuan. (2016) Characterization of 3-D creep constraint and creep crack growth rate in test specimens in ASTM-E1457 standard. Engineering Fracture Mechanics 168, pages 131-146.
Crossref
Hanna Quintero & Ali Mehmanparast. (2016) Prediction of creep crack initiation behaviour in 316H stainless steel using stress dependent creep ductility. International Journal of Solids and Structures 97-98, pages 101-115.
Crossref
Hongshun Ma, Guozhen Wang, Fuzhen Xuan & Shantung Tu. (2016) Unified correlation of in-plane and out-of-plane creep constraints with creep crack growth rate. International Journal of Pressure Vessels and Piping 139-140, pages 47-60.
Crossref
H.S. Ma, G.Z. Wang, F.Z. Xuan & S.T. Tu. (2015) Unified characterization of in-plane and out-of-plane creep constraint based on crack-tip equivalent creep strain. Engineering Fracture Mechanics 142, pages 1-20.
Crossref
J.W. Zhang, G.Z. Wang, F.Z. Xuan & S.T. Tu. (2014) Prediction of creep crack growth behavior in Cr–Mo–V steel specimens with different constraints for a wide range of C∗. Engineering Fracture Mechanics 132, pages 70-84.
Crossref

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