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Carlos C. Engler-Pinto Jr.
Carlos C. Engler-Pinto Jr.
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Title
Cited by
Cited by
Year
Interaction between oxidation and thermo-mechanical fatigue in IN738LC superalloy--I
S Esmaeili, CC Engler-Pinto Jr, B Ilschner, F Rezai-Aria
Scripta metallurgica et materialia 32 (11), 1777-1782, 1995
391995
Fatigue behavior analysis and multi-scale modelling of chopped carbon fiber chip-reinforced composites under tension-tension loading condition
H Tang, G Zhou, Z Chen, L Huang, K Avery, Y Li, H Liu, H Guo, H Kang, ...
Composite Structures 215, 85-97, 2019
372019
Modeling of fatigue damage under superimposed high-cycle and low-cycle fatigue loading for a cast aluminum alloy
X Zheng, CC Engler-Pinto Jr, X Su, H Cui, W Wen
Materials Science and Engineering: A 560, 792-801, 2013
342013
Notch insensitivity in fatigue failure of chopped carbon fiber chip-reinforced composites using experimental and computational analysis
H Tang, Z Chen, O Avinesh, H Guo, Z Meng, C Engler-Pinto, H Kang, ...
Composite Structures 244, 112280, 2020
332020
Numerical modeling of fatigue crack propagation based on the Theory of Critical Distances: Effects of overloads and underloads
X Zheng, H Cui, CC Engler-Pinto Jr, X Su, W Wen
Engineering Fracture Mechanics 128, 91-102, 2014
332014
Statistical approaches applied to fatigue test data analysis
CC Engler-Pinto Jr, JV Lasecki, RJ Frisch Sr, MA DeJack, JE Allison
SAE transactions, 422-431, 2005
332005
Thermal fatigue analysis of cast aluminum cylinder heads
X Su, M Zubeck, J Lasecki, CC Engler-Pinto Jr, C Tang, H Sehitoglu, ...
SAE Transactions, 418-424, 2002
312002
Effect of residual stress on fatigue strength of 316L stainless steel produced by laser powder bed fusion process
WJ Lai, A Ojha, Z Li, C Engler-Pinto, X Su
Progress in Additive Manufacturing, 1-9, 2021
302021
Numerical modeling of fatigue crack propagation based on the theory of critical distances
X Zheng, H Cui, X Su, CC Engler-Pinto Jr, W Wen
Engineering Fracture Mechanics 114, 151-165, 2013
292013
Effect of fiber orientation distribution on constant fatigue life diagram of chopped carbon fiber chip-reinforced Sheet Molding Compound (SMC) composite
H Tang, Z Chen, G Zhou, X Sun, Y Li, L Huang, H Guo, H Kang, D Zeng, ...
International Journal of Fatigue 125, 394-405, 2019
262019
Effect of frequency and environment on high cycle fatigue of cast aluminum alloys
CC Engler-Pinto Jr, RJ Frisch Sr, JV Lasecki, H Mayer, JE Allison
Proc VHCF 4, 421-7, 2007
232007
In situ nonlinear ultrasonic for very high cycle fatigue damage characterization of a cast aluminum alloy
W Li, H Cui, W Wen, X Su, CC Engler-Pinto Jr
Materials Science and Engineering: A 645, 248-254, 2015
222015
Interaction between creep and thermo-mechanical fatigue of CM247LC-DS
CC Engler-Pinto Jr, C Noseda, MY Nazmy, F Rezai-Aria
Superalloys 1996, 319-325, 1996
201996
The effect of voids on the quasi-static tensile properties of carbon fiber/polymer-laminated composites
H Liu, H Cui, W Wen, X Su, H Kang, C Engler-Pinto
Journal of Composite Materials 52 (15), 1997-2015, 2018
172018
Effect of constitutive model on thermomechanical fatigue life prediction
J Mao, CC Engler-Pinto Jr, T Li, J Hsieh, X Su
Procedia Engineering 133, 655-668, 2015
162015
Fatigue modeling for carbon/epoxy unidirectional composites under various stress ratios considering size effects
H Liu, A Ojha, Z Li, CC Engler-Pinto Jr, X Su, Q Sun, H Kang, W Wen, ...
International Journal of Fatigue 120, 184-200, 2019
152019
Fatigue behavior of stainless steel sheet specimens at extremely high temperatures
K Avery, J Pan, CC Engler-Pinto, Z Wei, F Yang, S Lin, L Luo, D Konson
SAE International Journal of Materials and Manufacturing 7 (3), 560-566, 2014
152014
A comparative investigation on the high temperature fatigue of three cast aluminum alloys
CC Engler-Pinto, JV Lasecki, JM Boileau, JE Allison
SAE International, 2004
152004
Cyclic behavior of A1319-T7B under isothermal and non-isothermal conditions
CC Engler-Pinto, H Sehitoglu, HJ Maier
Thermomechanical Fatigue Behavior of Materials: 4th Volume, 2003
152003
Mechanical response and dislocation substructure of a cast austenitic steel under low cycle fatigue at elevated temperatures
H Zhao, CC Engler-Pinto Jr, J Tong, LA Godlewski, JW Zindel, L Li, M Li, ...
Materials Science and Engineering: A 703, 422-429, 2017
142017
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