Lanzhou Liu , Yifei Gao , Xin Chen , Zhanbin Liu , Xuan Ren , Mingliang Zhu
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引用次数: 0
Abstract
Complicated interaction of twin boundary with dislocation plays a pivotal role in mechanical properties. In this study, the effect of TB on the fatigue crack initiation of Inconel 718 superalloy was investigated in vacuum environment of 650 ℃. A three-point bending fatigue test with preprocessed plate specimen was applied to trigger multi-source crack initiation. Plenty of slip band patterns and crystallographic orientations were acquired by SEM and EBSD. Twin boundary cracking was observed as the main fatigue failure mode. Crack propagation was accomplished by connecting twin boundary cracks with transgranular cracking. Perfect deformation compatibility of twin boundary was achieved only when both symmetric slip systems operated the collinear slip directions on twin boundary. It was proved that TB cracking was not prone to occur when its angle with maximum tensile stress direction is less than 10°. Twin boundary is more vulnerable with larger angle, especially at about 56° or 85°. A new orientation case that slip systems parallel to twin boundary in one or both of matrix and twin are activated has been revealed to enrich orientation-related twin boundary cracking mechanism.
期刊介绍:
Typical subjects discussed in International Journal of Fatigue address:
Novel fatigue testing and characterization methods (new kinds of fatigue tests, critical evaluation of existing methods, in situ measurement of fatigue degradation, non-contact field measurements)
Multiaxial fatigue and complex loading effects of materials and structures, exploring state-of-the-art concepts in degradation under cyclic loading
Fatigue in the very high cycle regime, including failure mode transitions from surface to subsurface, effects of surface treatment, processing, and loading conditions
Modeling (including degradation processes and related driving forces, multiscale/multi-resolution methods, computational hierarchical and concurrent methods for coupled component and material responses, novel methods for notch root analysis, fracture mechanics, damage mechanics, crack growth kinetics, life prediction and durability, and prediction of stochastic fatigue behavior reflecting microstructure and service conditions)
Models for early stages of fatigue crack formation and growth that explicitly consider microstructure and relevant materials science aspects
Understanding the influence or manufacturing and processing route on fatigue degradation, and embedding this understanding in more predictive schemes for mitigation and design against fatigue
Prognosis and damage state awareness (including sensors, monitoring, methodology, interactive control, accelerated methods, data interpretation)
Applications of technologies associated with fatigue and their implications for structural integrity and reliability. This includes issues related to design, operation and maintenance, i.e., life cycle engineering
Smart materials and structures that can sense and mitigate fatigue degradation
Fatigue of devices and structures at small scales, including effects of process route and surfaces/interfaces.
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