Magnesium-Based Syntactic, Metastable and Nano-Composites
暫譯: 鎂基合成、亞穩定及奈米複合材料

Seetharaman, Sankaranarayanan, Sankaranarayanan, Dhivya, Wong, Eugene

Magnesium-Based Syntactic, Metastable and Nano-Composites
  • 出版商: Springer
  • 出版日期: 2025-10-04
  • 售價: $5,500
  • 貴賓價: 9.5$5,225
  • 語言: 英文
  • 頁數: 243
  • 裝訂: Hardcover - also called cloth, retail trade, or trade
  • ISBN: 3031965132
  • ISBN-13: 9783031965135
  • 相關分類: 材料科學 Meterials

    • 海外代購書籍(需單獨結帳)

商品描述

The book provides a detailed study and review on magnesium composites and includes recent studies on nanoparticulate reinforced magnesium composites, metastable composites and syntactic composites highlighting the improvement in properties compared with conventional micron-size ceramic-reinforced magnesium composites. It provides a comprehensive review on magnesium composites focusing on the addition of nanoreinforcements, which can substantially improve the properties of magnesium without the negative effect of reduced ductility and increased weight that are typically associated with the addition of micron size reinforcements. Magnesium is the lightest structural metal and has tremendous potential to replace aluminum leading to improved weight savings and machinability. Compared to polymer composites, magnesium composites can be repaired using existing metal repair techniques whereas polymer composites require sophisticated non-destructive testing techniques to detect underlying cracknetwork and extensive removal of materials to repair the damaged component.

Due to increasing emphasis on light weighting to reduce carbon emissions and with the recent approval of magnesium usage for aircraft seats in 2015 the amount of work with magnesium metals and alloys and thereby this research area expanded significantly.

商品描述(中文翻譯)

本書對鎂複合材料進行了詳細的研究和回顧,並包括了近期對納米顆粒增強鎂複合材料、亞穩定複合材料和語法複合材料的研究,突顯了與傳統微米級陶瓷增強鎂複合材料相比,性能的改善。它提供了關於鎂複合材料的全面回顧,重點在於添加納米增強材料,這可以顯著改善鎂的性能,而不會像添加微米級增強材料那樣帶來延展性降低和重量增加的負面影響。鎂是最輕的結構金屬,具有取代鋁的巨大潛力,從而實現更好的減重和加工性。與聚合物複合材料相比,鎂複合材料可以使用現有的金屬修復技術進行修復,而聚合物複合材料則需要複雜的無損檢測技術來檢測潛在的裂紋網絡,並需要大量去除材料來修復受損的部件。

由於越來越重視減輕重量以降低碳排放,並且在2015年最近批准了鎂用於飛機座椅的使用,這使得鎂金屬和合金的研究工作顯著擴展。

作者簡介

Prof. Manoj Gupta is currently serving as Provost Chair Professor in the Mechanical Engineering Department of National University of Singapore. He completed his Ph.D. (Materials Science) from the University of California at Irvine in 1992 and postdoctoral research at University of Alberta, Canada in the same year. Previously, he served as Director designate of Materials Science and Engineering Initiative at NUS and as Head of Materials Division of Department of Mechanical Engineering. His current research interests include processing, microstructure and properties evaluation of advanced light weight structural materials.

Dr. Eugene Wong is currently Director of Operations with the School of Mechanical & System Engineering, Newcastle University International Singapore. He is involved in the Mechanical Design and Manufacturing Engineering degree program which is offered in collaboration with Singapore Institute of Technology. Dr Wong received his BEng and PhD degrees from National University of Singapore and was a recipient of NUS President's Graduate Fellowship and NUS Graduate Research Scholarship. His research interests include the development of lightweight metal matrix composites, repair of polymer composite materials, energy efficient microwave processing of materials and additive manufacturing technologies.

作者簡介(中文翻譯)

馬諾傑·古普塔教授目前擔任新加坡國立大學機械工程系的教務長特聘教授。他於1992年在加州大學爾灣分校獲得材料科學博士學位,並在同年於加拿大阿爾伯塔大學進行博士後研究。之前,他曾擔任新加坡國立大學材料科學與工程計畫的指定主任,以及機械工程系材料部門的負責人。他目前的研究興趣包括先進輕量結構材料的加工、微觀結構及性能評估。 黃宇傑博士目前擔任新城堡大學國際新加坡機械與系統工程學院的運營總監。他參與與新加坡科技大學合作提供的機械設計與製造工程學位課程。黃博士在新加坡國立大學獲得工程學士及博士學位,並曾獲得新加坡國立大學校長研究生獎學金及研究獎學金。他的研究興趣包括輕量金屬基複合材料的開發、聚合物複合材料的修復、材料的節能微波加工及增材製造技術。

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