Low Transformation Temperature Welding Materials: Properties, Weldability, and Applications
暫譯: 低轉變溫度焊接材料:特性、可焊性與應用
Ma, Ninshu, Hiraoka, Kazuo, Feng, Zhongyuan
- 出版商: CRC
- 出版日期: 2026-07-13
- 售價: $4,220
- 貴賓價: 9.5 折 $4,009
- 語言: 英文
- 頁數: 210
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 1032944838
- ISBN-13: 9781032944838
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相關分類:
材料科學 Meterials
尚未上市,無法訂購
相關主題
商品描述
This valuable reference for advanced students and practicing engineers provides a comprehensive overview of low transformation temperature (LTT) welding materials, detailing their design, properties, and weldability, and demonstrating their applications in preventing fatigue and improving corrosion performance in welded structures.
Through this book, readers will gain a comprehensive understanding of how LTT actively controls welding residual stress to improve the fatigue life of welded structures and raise corrosion resistance. The book first provides a review of LTT welding materials, addressing the design of chemical compositions for LTT welding materials, the properties and weldability of LTT welding materials, compressive residual stress, and stress concentration, while providing practical application examples of LTT welding materials for preventing fatigue cracking. The authors provide experimental and numerically simulated data, photos, graphs, and tables to illustrate the information within the book and facilitate readers' understanding. Last, the book discusses practical applications such as the successful prevention of fatigue cracks at the toe of fillet welds (such as boxed fillet welds in ship structures) and surface coating using wire-arc additive manufacturing to improve corrosion performance. These application descriptions are supported by an appendix that supplies digital data of LTT material properties and finite element mesh data for butt and fillet welds. This practical information will allow readers to apply this knowledge in real-world scenarios and also develop and extend the number of applications for LTT welding materials, contributing to improved corrosion performance in welded structures. Upper undergraduate and postgraduate students will find this a valuable resource for their learning as it provides additional information to supplement course materials. Practitioners will also benefit from the practical information including simulation and real-world data that will benefit their daily work.商品描述(中文翻譯)
這本對於進階學生和實務工程師來說非常有價值的參考書,提供了低轉變溫度 (LTT) 焊接材料的全面概述,詳細說明了它們的設計、特性和可焊性,並展示了它們在防止疲勞和改善焊接結構耐腐蝕性能方面的應用。
通過這本書,讀者將全面了解 LTT 如何主動控制焊接殘餘應力,以改善焊接結構的疲勞壽命並提高耐腐蝕性。本書首先回顧了 LTT 焊接材料,討論了 LTT 焊接材料的化學成分設計、特性和可焊性、壓縮殘餘應力以及應力集中,同時提供了 LTT 焊接材料防止疲勞裂紋的實際應用範例。作者提供了實驗和數值模擬數據、照片、圖表和表格,以說明書中的資訊並促進讀者的理解。最後,本書討論了實際應用,例如成功防止焊接角焊縫(如船舶結構中的盒形角焊縫)根部的疲勞裂紋,以及使用電弧焊接增材製造的表面塗層以改善耐腐蝕性能。這些應用描述由附錄支持,附錄提供了 LTT 材料特性和對接焊縫及角焊縫的有限元素網格數據的數位資料。這些實用資訊將使讀者能夠在現實情境中應用這些知識,並開發和擴展 LTT 焊接材料的應用數量,從而改善焊接結構的耐腐蝕性能。
高年級本科生和研究生將發現這是他們學習的寶貴資源,因為它提供了補充課程材料的額外資訊。實務工作者也將受益於這些實用資訊,包括模擬和現實數據,這將有助於他們的日常工作。
作者簡介
Ninshu Ma was born in 1961 and received Ph.D. in 1994 at The University of Osaka, Japan. He is a professor of Joining and Welding Research Institute, and the director of East-Asian Center of Academic Initiatives at The University of Osaka, Japan. He is associate editor of Ships and Offshore Structure, editor of China Welding, associate editor-in-chief of Advanced Materials Joining. He was the editor-in-chief of The Journal of the Japan Society of Technology of Plasticity. He has published more than 300 journal articles and 6 books/chapters. He has chaired/co-chaired several international conferences. His research interests include computational welding mechanics and metal forming mechanics, development of computing/measuring methods and material constitutive models for various fusion/solid-state joining methods, as well as additive manufacturing.
Kazuo Hiraoka was born in 1948 and received his Dr.-Eng. in 1997 from The University of Osaka, Japan. He was a guest (2016-2024) and visiting (2009-2016) professor of Joining and Welding Research Institute at The University of Osaka, Japan. Until 2009, he was a leader of Welding Metallurgy Group at National Institute for Materials Science (NIMS). He has published more than 100 journal articles and 3 books/chapters. His research interests include diagnostics of welding arc, development of arc welding process, and welding technology for 780-980 MPa class high strength steels with LTT materials. Zhongyuan Feng (born in 1988) received Ph.D. in 2021 at The University of Osaka, Japan. He has published more than 15 journal articles. His research interests include weldability of metallic materials, residual stress and fatigue performance of welded joints, and friction stir welding technology for high-melting-point materials. Hiroshi Yajima was born at Tokyo in 1936 and received Dr. Eng. in 1981 at The University of Tokyo, Japan. He worked at Technical Headquarters of Mitsubishi Heavy Industries Ltd. from 1960 through 1994. He was a professor at Graduate School of Engineering, Hiroshima University from 1994 through 2000, and he was a professor at Graduate School of Engineering, Nagasaki Institute of Applied Science from 2000 through 2015. At present, he is an emeritus professor at Nagasaki Institute of Applied Science. He has published about 500 journal articles. His research interests include fatigue strength and unstable fracture strength of large welded structures.作者簡介(中文翻譯)
於1961年出生,並於1994年在日本大阪大學獲得博士學位。他是大阪大學接合與焊接研究所的教授,以及東亞學術倡議中心的主任。他是Ships and Offshore Structure的副編輯,China Welding的編輯,以及Advanced Materials Joining的副主編。他曾擔任The Journal of the Japan Society of Technology of Plasticity的主編。他已發表超過300篇期刊文章和6本書籍/章節。他曾主持/共同主持多個國際會議。他的研究興趣包括計算焊接力學和金屬成形力學、各種熔接/固態接合方法的計算/測量方法及材料本構模型的開發,以及增材製造。
於1948年出生,並於1997年在日本大阪大學獲得工學博士學位。他曾擔任大阪大學接合與焊接研究所的客座教授(2016-2024)和訪問教授(2009-2016)。在2009年之前,他是國立材料科學研究所(NIMS)焊接冶金小組的負責人。他已發表超過100篇期刊文章和3本書籍/章節。他的研究興趣包括焊接弧的診斷、弧焊工藝的開發,以及針對780-980 MPa級高強度鋼的焊接技術,特別是使用低熱傳導材料(LTT)。
(1988年出生)於2021年在日本大阪大學獲得博士學位。他已發表超過15篇期刊文章。他的研究興趣包括金屬材料的可焊性、焊接接頭的殘餘應力和疲勞性能,以及針對高熔點材料的摩擦攪拌焊接技術。
於1936年在東京出生,並於1981年在日本東京大學獲得工學博士學位。他於1960年至1994年在三菱重工業技術總部工作。從1994年至2000年,他是廣島大學工程研究所的教授,並於2000年至2015年擔任長崎應用科學大學工程研究所的教授。目前,他是長崎應用科學大學的名譽教授。他已發表約500篇期刊文章。他的研究興趣包括大型焊接結構的疲勞強度和不穩定斷裂強度。
