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Titlebook: Creep-Fatigue Fracture: Analysis of Internal Damage; Weisheng Zhou,Naoya Tada,Junji Sakamoto Book 2024 The Editor(s) (if applicable) and T

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樓主
發(fā)表于 2025-3-21 17:31:05 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書(shū)目名稱(chēng)Creep-Fatigue Fracture: Analysis of Internal Damage
編輯Weisheng Zhou,Naoya Tada,Junji Sakamoto
視頻videohttp://file.papertrans.cn/240/239666/239666.mp4
概述Presents a systematic experimental approach to the process of internal damage and healing.Introduces three-dimensional simulation and visualization methods.Helps readers to improve the accuracy of dam
叢書(shū)名稱(chēng)Springer Series in Materials Science
圖書(shū)封面Titlebook: Creep-Fatigue Fracture: Analysis of Internal Damage; Weisheng Zhou,Naoya Tada,Junji Sakamoto Book 2024 The Editor(s) (if applicable) and T
描述.This book presents a detailed analysis of the processes of??internal?damage and healing of damage in high-temperature creep-fatigue. This analysis is based on experimental results and a three-dimensional visualization and simulation method. It focuses on inner cracking type fracture, which is essential to consider for creep-fatigue in actual equipment and structures used at high temperatures for long periods of time. In this book, systematic studies of the fracture are presented by introducing three-dimensional simulation and visualization methods. This book is for designers and researchers in industry specializing in strength of materials at high temperatures. It is also for a postgraduate or higher academic audience specializing in mechanical engineering and materials science engineering. In reading the book it is expected that readers will acquire knowledge of evaluation techniques for high-temperature creep-fatigue damage. In addition, this book allows readers toimprove the accuracy of damage evaluation, design materials for longer lifetimes, and apply the described techniques to other materials..
出版日期Book 2024
關(guān)鍵詞Heat-resistant steel; Creep-fatigue; Internal damage; Fracture morphology; Grain boundary
版次1
doihttps://doi.org/10.1007/978-981-97-1879-5
isbn_softcover978-981-97-1881-8
isbn_ebook978-981-97-1879-5Series ISSN 0933-033X Series E-ISSN 2196-2812
issn_series 0933-033X
copyrightThe Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Singapor
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沙發(fā)
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板凳
發(fā)表于 2025-3-22 03:21:35 | 只看該作者
,Nationale Identit?t im Wahlkampfdiskurs, cavity density, and A-parameter) were evaluated. For all damage parameters, the damage value increases with increasing life fraction. However, under creep-dominated conditions, where only the grain boundary is preferentially damaged, only the fraction of cavities on grain boundary lines has a clear physical meaning as creep damage.
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發(fā)表于 2025-3-22 16:58:17 | 只看該作者
Numerical Simulation of the Initiation and Growth of Small Inner Cracks,f grain boundary facets. By selecting an appropriate crack initiation driving force . and crack propagation driving force ., the crack density, mean crack length, and crack length distribution actually measured on a longitudinal section can be well reproduced from early to late life.
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發(fā)表于 2025-3-22 20:49:35 | 只看該作者
Conclusions,under the conditions that exhibit inner cracking type fracture, from the onset to the final failure. Typical damage of austenitic stainless steel SUS304 caused by creep-fatigue is grain boundary cavities, small intergranular cracks, and large cracks.
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發(fā)表于 2025-3-23 00:29:13 | 只看該作者
https://doi.org/10.1007/978-981-97-1879-5Heat-resistant steel; Creep-fatigue; Internal damage; Fracture morphology; Grain boundary
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發(fā)表于 2025-3-23 02:53:06 | 只看該作者
978-981-97-1881-8The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Singapor
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