Materials for Land, Air, and Space Transportation
Herausgeber: Zhang, Sam; Yu, Yinquan
Materials for Land, Air, and Space Transportation
Herausgeber: Zhang, Sam; Yu, Yinquan
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This book details new materials development for these land, air, and space transportation applications, emphasizing physical properties, research theories, and cutting-edge processing technologies, as well as advanced high-precision inspection methodologies.
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This book details new materials development for these land, air, and space transportation applications, emphasizing physical properties, research theories, and cutting-edge processing technologies, as well as advanced high-precision inspection methodologies.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 400
- Erscheinungstermin: 24. Dezember 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032478548
- ISBN-10: 1032478543
- Artikelnr.: 71234891
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 400
- Erscheinungstermin: 24. Dezember 2024
- Englisch
- Abmessung: 234mm x 156mm
- ISBN-13: 9781032478548
- ISBN-10: 1032478543
- Artikelnr.: 71234891
Professor Yu Yinquan (¿¿¿¿earned a Bachelor of Engineering in Mechanical Engineering at Chongqing University, China and a Master of Engineering in Mechatronics and a PhD in Electrical and Computer Engineering at the National University of Singapore. He was a Scientist at the Agency for Science, Technology and Research (A*star), Singapore. In January 2019, he joined the School of Mechatronics and Vehicle Engineering, East China Jiaotong University, Nanchang, China, and assumed duties of the Director of the Institute of Intelligent Manufacturing and Precision Research, the Director of the Intelligent Transportation Tools and Power Control Research Center and Deputy Director of the Key Laboratory of transport tools and equipment of the Ministry of Education. Prof. Yu was elected as a Fellow of SAS (2020), a member of ASME, Singapore executive committee member ASME (2017-2018), a Senior member of IES (2018) and IEEE (2019), and a mentor of the Lean Launch Pad Singapore (2018). He was also elected into the Double Thousands Program of Jiangxi Province (2019) and the Top Overseas Experts Program by the Ministry of Science and Technology of the PRC (2021). Professor Sam Zhang Shanyong (¿¿¿), FRSC, FTFS, FIoMMM, academically known as Sam Zhang, was born and brought up in the famous "City of Mountains" Chongqing, China. He received his Bachelor of Engineering in Materials in 1982 from Northeastern University (Shenyang, China), Master of Engineering in Materials in 1984 from Iron & Steel Research Institute (Beijing, China) and Ph.D. degree in Ceramics in 1991 from The University of Wisconsin-Madison, USA. He was a tenured full professor (since 2006) at the School of Mechanical and Aerospace Engineering, Nanyang Technological University Singapore. Between 2018 and 2022, he was Professor at the School of Materials and Energy, Southwest University, China and and served as the founding director of the Centre for Advanced Thin Films and Devices. Since 2023, he is Professor at the School of Aeronautics, Harbin Institute of Technology, and is also affiliated with HIT Zhengzhou Research Institute.
0. Front Matter. 1. Porous Boron Nitride Materials of Hydrogen Storage for
Fuel Cell Vehicles. 2. Brake friction materials for high-speed trains. 3.
Tribological Behavior of Wheel-Rail Contact under Extreme Service
Conditions. 4. Surface Integrity in Robotic Compliant Grinding of
Nickel-Base Superalloys. 5. Ceramic Matrix Composites for Commercial
Aircraft Engines. 6. Functional Films and Coating Technology for Infrared
Windows..... 7. Laser Micro-processing of Materials for Transportation
Industry Application. 8. Applications of PIIID Technology on Surface
Strengthening of Basic Components in Industry. 9. Materials science in
space technology. 10. Structural Changes and Damage Behavior of Polymer in
Aerospace Caused by Radiation. 11. Wire Arc Additive Manufacturing of
Nickel-Based Superalloy and Stainless-steel Dissimilar Material Component.
Fuel Cell Vehicles. 2. Brake friction materials for high-speed trains. 3.
Tribological Behavior of Wheel-Rail Contact under Extreme Service
Conditions. 4. Surface Integrity in Robotic Compliant Grinding of
Nickel-Base Superalloys. 5. Ceramic Matrix Composites for Commercial
Aircraft Engines. 6. Functional Films and Coating Technology for Infrared
Windows..... 7. Laser Micro-processing of Materials for Transportation
Industry Application. 8. Applications of PIIID Technology on Surface
Strengthening of Basic Components in Industry. 9. Materials science in
space technology. 10. Structural Changes and Damage Behavior of Polymer in
Aerospace Caused by Radiation. 11. Wire Arc Additive Manufacturing of
Nickel-Based Superalloy and Stainless-steel Dissimilar Material Component.
0. Front Matter. 1. Porous Boron Nitride Materials of Hydrogen Storage for
Fuel Cell Vehicles. 2. Brake friction materials for high-speed trains. 3.
Tribological Behavior of Wheel-Rail Contact under Extreme Service
Conditions. 4. Surface Integrity in Robotic Compliant Grinding of
Nickel-Base Superalloys. 5. Ceramic Matrix Composites for Commercial
Aircraft Engines. 6. Functional Films and Coating Technology for Infrared
Windows..... 7. Laser Micro-processing of Materials for Transportation
Industry Application. 8. Applications of PIIID Technology on Surface
Strengthening of Basic Components in Industry. 9. Materials science in
space technology. 10. Structural Changes and Damage Behavior of Polymer in
Aerospace Caused by Radiation. 11. Wire Arc Additive Manufacturing of
Nickel-Based Superalloy and Stainless-steel Dissimilar Material Component.
Fuel Cell Vehicles. 2. Brake friction materials for high-speed trains. 3.
Tribological Behavior of Wheel-Rail Contact under Extreme Service
Conditions. 4. Surface Integrity in Robotic Compliant Grinding of
Nickel-Base Superalloys. 5. Ceramic Matrix Composites for Commercial
Aircraft Engines. 6. Functional Films and Coating Technology for Infrared
Windows..... 7. Laser Micro-processing of Materials for Transportation
Industry Application. 8. Applications of PIIID Technology on Surface
Strengthening of Basic Components in Industry. 9. Materials science in
space technology. 10. Structural Changes and Damage Behavior of Polymer in
Aerospace Caused by Radiation. 11. Wire Arc Additive Manufacturing of
Nickel-Based Superalloy and Stainless-steel Dissimilar Material Component.