Static Creep Micro-Macro Fracture Mechanics of Brittle Solids
Autor Xiaozhao Li, Zhushan Shao, Chengzhi Qien Limba Engleză Paperback – 14 dec 2024
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Specificații
ISBN-13: 9789819982059
ISBN-10: 9819982057
Pagini: 248
Dimensiuni: 155 x 235 x 13 mm
Greutate: 0.43 kg
Editura: Springer
ISBN-10: 9819982057
Pagini: 248
Dimensiuni: 155 x 235 x 13 mm
Greutate: 0.43 kg
Editura: Springer
Cuprins
Introduction.- Static Creep Fracture Mechanism.- Loading and Unloading Path Effect on Creep Fracture.- Shear Strength Evolution during Creep Fracture.- Crack Angle Effect on Creep Fracture.- Crack Nucleation during Creep Fracture. Crack Recovery during Creep Fracture.- Chemical Effect of Water on Creep Fracture.- Constant Seepage Pressure Effect on Creep Fracture.- Cyclic Seepage Pressure Effect on Creep Fracture.- Dynamic Damage Effect on Creep Fracture.- High Temperature Heat-Treated Effect on Creep Fracture.
Notă biografică
Xiaozhao Li received his Ph.D. degree in geotechnical engineering in 2016 from Xi’an University of Architecture & Technology, China. He did his post-doctoral research in Beijing University of Civil Engineering and Architecture (BUCEA) during 2016–2019. He joined the School of Civil and Transportation Engineering of BUCEA in August 2016, and he became an associate professor in 2020. He achieved the Shaanxi Province Excellent Doctoral Dissertation Award in 2018. He is the member of Engineering Safety and Protection Branch and Deep Earth Space Exploration and Development Branch of Chinese Society of Rock Mechanics and Engineering. His research interest is focused on the micro–macro-fracture mechanics of brittle solids. He presided over the completion of 1 program of National Natural Science Foundation of China and 1 program of the Postdoctoral Science Foundation of China. He has published over 40 research articles.
Zhushan Shao obtained doctoral degree in mechanics in 2005 from Xi'an Jiaotong University, China. He did his post-doctoral research in the National University of Singapore during 2005–2006. He was a research fellow in Nanyang Technological University of Singapore during 2007–2008. He joined the School of Civil Engineering of Xi’an University of Architecture & Technology in 2009. He is currently the dean of the School of Science at Xi'an University of Architecture and Technology. His research interest is focused on the disaster prevention and reduction in underground engineering, numerical methods and their engineering applications, and thermoelasticity of composite materials. He won the second prize of the National Natural Science Award in 2013. He presided over the completion of more than 10 projects of the National Natural Science Foundation and provincial- and ministerial-level projects.
Chengzhi Qi obtained doctoral degree in Geophysics in 2007 from Moscow University, Russia. He is a “Cheung Kong scholar” awarded by the Administration of Education of China. He is the dean of Graduate School of Beijing University of Civil Engineering and Architecture. He is the chairman of Engineering Structure Safety and Protection Branch of Chinese Society of Rock Mechanics and Engineering. His research interest is focused on engineering structure seismic, nonlinear rock mechanics, and impact dynamics. He won two first prizes and one second prize of the National Science and Technology Progress Award. He presided over the completion of more than 10 projects of the National Natural Science Foundation and 973 major project, sub-projects, and provincial- and ministerial-level projects.
Textul de pe ultima copertă
This book gathers a large amount of recent research results on this topic to better understand the static creep micro–macro-fracture mechanics in brittle solids (e.g., glass, ceramic, concrete, ice, and rock). To be precise, this is about to explore the effects of the external factors of stress paths, water content, seepage pressure, dynamic disturbance, thermal treated temperature, and the internal factors of crack angle, size, recovery, and nucleation coalescence on the static creep fracture mechanical properties in brittle solids. This book provides important theoretical support in evaluation for long-term lifetime in the brittle solid engineering (e.g., deep underground engineering, architecture engineering, aerospace engineering, and mechanical manufacturing engineering).
Caracteristici
Presents a micro–macro-mechanical method of static creep fracture to evaluate the lifetime in brittle solids
Identifies the effects of environment and microcrack factors on the static creep fracture in brittle solids
Provides the relationship between static creep microcrack variation and fracture mechanical properties in brittle solids
Identifies the effects of environment and microcrack factors on the static creep fracture in brittle solids
Provides the relationship between static creep microcrack variation and fracture mechanical properties in brittle solids