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Titlebook: Hot Stamping Advanced Manufacturing Technology of Lightweight Car Body; Ping Hu,Liang Ying,Bin He Book 2017 Science Press and Springer Sci

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發(fā)表于 2025-3-21 17:21:39 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書目名稱Hot Stamping Advanced Manufacturing Technology of Lightweight Car Body
編輯Ping Hu,Liang Ying,Bin He
視頻videohttp://file.papertrans.cn/429/428443/428443.mp4
概述Collects the most advanced manufacturing technologies in automotive lightweight car body.Introduces experimental and numerical research methods in-depth.Includes over 20 figures explaining the basic k
圖書封面Titlebook: Hot Stamping Advanced Manufacturing Technology of Lightweight Car Body; Ping Hu,Liang Ying,Bin He Book 2017 Science Press and Springer Sci
描述.This book summarizes the advanced manufacturing technology of original innovations in hot stamping of lightweight car body. A detailed description of the technical system and basic knowledge of sheet metal forming is given, which helps readers quickly understand the relevant knowledge in the field. Emphasis has been placed on the independently developed hot stamping process and equipment, which help describe the theoretical and experimental research on key problems involving stress field, thermal field and phase transformation field in hot stamping process. Also, a description of the formability at elevated temperature and the numerical simulation algorithms for high strength steel hot stamping is given in combination with the experiments. Finally, the book presents some application cases of hot stamping technology such as the lightweight car body design using hot stamping components and gradient hardness components, and the cooling design of the stamping tool..?This bookis intended for researchers, engineers and graduate students in vehicle engineering, mechanical engineering, especially in the field of advanced manufacturing technology. The book also provides a useful reference
出版日期Book 2017
關(guān)鍵詞Hot stamping; manufacturing technology; lightweight car body; heat transition conductivity; simulating o
版次1
doihttps://doi.org/10.1007/978-981-10-2401-6
isbn_softcover978-981-10-9606-8
isbn_ebook978-981-10-2401-6
copyrightScience Press and Springer Science+Business Media Singapore 2017
The information of publication is updating

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Ping Hu,Liang Ying,Bin Heially to both energy use and greenhouse gas emissions due to their widespread adoption. The growing prevalence of air conditioning systems worldwide necessitates energy-efficient and environmentally friendly strategies. To address this, we propose an innovative solution for intelligently controlling
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Ping Hu,Liang Ying,Bin Heintegumentary system. Managing these infections is notably intricate, with challenges posed by biofilm proliferation. The excessive uses of conventional antifungal medications have given rise to the emergence of resistant . strains, thereby exacerbating the predicament. The escalating resistance of
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Ping Hu,Liang Ying,Bin Helyse the dynamic behaviours of the thin-walled metamaterial beam and to design a local resonator for attenuating the vibration waves. The unit cell of the metamaterial beam is studied to predict the vibration waves in an infinite beam. It is investigated using Bloch’s theorem and finite element meth
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