Cavity self-healing mechanism at the interface of high-Cr ferritic steel/austenitic steel dissimilar diffusion-bonded joint during cyclic phase transformation treatment

In this work, cyclic phase transformation treatment (CPTT) was developed to achieve self-healing of interfacial voids in high-Cr ferritic steel/austenitic steel dissimilar diffusion-bonded joints. The evolution of voids was analyzed based on microstructural characteristics, and mechanical properties...

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Published inMaterials characterization Vol. 218; p. 114569
Main Authors Liu, Chenxi, Wang, Yingying, Chang, Ruijiang, Guo, Qianying, Ding, Ran, Liu, Yongchang
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.12.2024
Subjects
Cavity healing
Cyclic phase transformation treatment
Diffusion bonded joint
Healing mechanism
Cyclic phase transformation treatment
Diffusion bonded joint
Cavity healing
Healing mechanism
Online AccessGet full text
ISSN1044-5803
DOI10.1016/j.matchar.2024.114569

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Abstract In this work, cyclic phase transformation treatment (CPTT) was developed to achieve self-healing of interfacial voids in high-Cr ferritic steel/austenitic steel dissimilar diffusion-bonded joints. The evolution of voids was analyzed based on microstructural characteristics, and mechanical properties of joints were assessed through lap-shear tensile tests. The results indicate that, in contrast to isothermal heat treatment (IHT), CPTT significantly enhances efficiency of cavity healing, leading to substantial improvements in both interface bonded ratio and shear performance of joints. By considering equivalent interfacial internal stress, a kinetic model for cavity healing was proposed, incorporating coupled the interface and surface diffusion, and the power-law creep mechanism. Simulation results demonstrate that diffusion predominates during cavity healing with negligible contribution of plastic flow. The actual cavity healing can be divided into two stages: in initial stage the large penny-shaped cavities become shorter in length with negligible change of height, while in the final stage, nearly circular voids shrinkage with a significant decrease of void size due to the enhanced effect of local surface diffusion. Moreover, it suggests that tensile internal stresses can impede healing or even promote residual void growth. Conversely, normal compressive internal stresses within cavity healing zone induced by the cyclic α↔γ phase transformation during CPTT intensify chemical gradients around void neck. This promotes accelerated atomic diffusion adjacent to void neck region, thereby resulting in a notable reduction in the duration required for complete cavity healing. •Cyclic phase transformation expedites cavity healing compared to isothermal treatment.•Integrating internal stress, diffusion and plastic flow, a cavity healing model is proposed.•Healing kinetics, accelerated mechanisms and impact of internal stress are elucidated.•Diffusion predominates during healing with negligible contribution of plastic flow.•Internal stress induced in thermal cycling expedites atom diffusion and cavity healing.
AbstractList In this work, cyclic phase transformation treatment (CPTT) was developed to achieve self-healing of interfacial voids in high-Cr ferritic steel/austenitic steel dissimilar diffusion-bonded joints. The evolution of voids was analyzed based on microstructural characteristics, and mechanical properties of joints were assessed through lap-shear tensile tests. The results indicate that, in contrast to isothermal heat treatment (IHT), CPTT significantly enhances efficiency of cavity healing, leading to substantial improvements in both interface bonded ratio and shear performance of joints. By considering equivalent interfacial internal stress, a kinetic model for cavity healing was proposed, incorporating coupled the interface and surface diffusion, and the power-law creep mechanism. Simulation results demonstrate that diffusion predominates during cavity healing with negligible contribution of plastic flow. The actual cavity healing can be divided into two stages: in initial stage the large penny-shaped cavities become shorter in length with negligible change of height, while in the final stage, nearly circular voids shrinkage with a significant decrease of void size due to the enhanced effect of local surface diffusion. Moreover, it suggests that tensile internal stresses can impede healing or even promote residual void growth. Conversely, normal compressive internal stresses within cavity healing zone induced by the cyclic α↔γ phase transformation during CPTT intensify chemical gradients around void neck. This promotes accelerated atomic diffusion adjacent to void neck region, thereby resulting in a notable reduction in the duration required for complete cavity healing. •Cyclic phase transformation expedites cavity healing compared to isothermal treatment.•Integrating internal stress, diffusion and plastic flow, a cavity healing model is proposed.•Healing kinetics, accelerated mechanisms and impact of internal stress are elucidated.•Diffusion predominates during healing with negligible contribution of plastic flow.•Internal stress induced in thermal cycling expedites atom diffusion and cavity healing.
ArticleNumber 114569
Author Ding, Ran
Chang, Ruijiang
Wang, Yingying
Guo, Qianying
Liu, Yongchang
Liu, Chenxi
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Keywords Cyclic phase transformation treatment
Diffusion bonded joint
Cavity healing
Healing mechanism
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Snippet In this work, cyclic phase transformation treatment (CPTT) was developed to achieve self-healing of interfacial voids in high-Cr ferritic steel/austenitic...
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elsevier
SourceType Enrichment Source
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StartPage 114569
SubjectTerms Cavity healing
Cyclic phase transformation treatment
Diffusion bonded joint
Healing mechanism
Title Cavity self-healing mechanism at the interface of high-Cr ferritic steel/austenitic steel dissimilar diffusion-bonded joint during cyclic phase transformation treatment
URI https://dx.doi.org/10.1016/j.matchar.2024.114569
Volume 218
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