Reprint

Study on Crack Resistance of Concrete

Edited by
May 2024
184 pages
  • ISBN978-3-7258-1192-2 (Hardback)
  • ISBN978-3-7258-1191-5 (PDF)

This is a Reprint of the Special Issue Study on Crack Resistance of Concrete that was published in

Chemistry & Materials Science
Engineering
Physical Sciences
Summary

Concrete cracking is a crucial factor that threatens the durability and strength of concrete. Especially for concrete building structures with complex working environments such as hydraulic structures and long-span building structures, concrete cracking seriously threatens the safe operation of engineering projects. The cracking resistance of concrete is influenced by many factors, such as mechanical properties, temperature processes, autogenous shrinkage, restrained stress, creep, etc. The study of the crack resistance of concrete is of great significance for its wide application. This book focuses on the research of the cracking resistance of concrete, including the formation mechanism of concrete cracking, the relationship between the cracking mechanism and the performance of various types of concrete, and the resistance and maintenance of concrete cracks.

Format
  • Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
CaO and MgO composite expansive agent; reaction time of MgO; temperature history; expansion properties; surface defect; repair material; ethyl acetate; infiltration performance; MgO expansion agent; autogenous shrinkage; C50 mass concrete; hydration heat inhibitor; heat of hydration; concrete; degree of hydration; MgO expansive agent; autogenous shrinkage; temperature; mineral admixture; MEA; fly ash; mineral powder; self-shrinkage; compressive strength; methyl methacrylate; concrete repair material; low shrinkage; shrinkage stress; mechanical properties; MgO expansive agent; variable temperature curing; hydration degree; curing condition; magnesite tailings; MgO expansion agent; mortar; compressive strength; flexural strength; porosity; porosity; mechanical property; alkalinity; permeability coefficient; mechanical performance; reaction mechanism; slag-based geopolymer; organic–inorganic composite geopolymer; pressure-mixing process