Titlebook: Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC); Hu Feng,Aofei Guo,Jun Zhao Book 2024 The Editor(s) (if applicabl

ISSUE

书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)影响因子(影响力)




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)影响因子(影响力)学科排名




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)网络公开度




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)网络公开度学科排名




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)被引频次




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)被引频次学科排名




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)年度引用




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)年度引用学科排名




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)读者反馈




书目名称Ultra-High Ductility Magnesium-Phosphate-Cement-Based Composites (UHDMC)读者反馈学科排名

共同生活

HDMC, which further expands the application scope of UHDMC.P.This book systematically discusses the workability, mechanical properties, water stability, and material design methods of ultra-high ductility magnesium phosphate cement-based composites (UHDMC) with PVA fibers, PE fibers, or hybrid fiber

高兴一回

Water Stability of UHDMC,MCs, such as workability, resistance to compression, flexural behavior, and stability when exposed to water, is conducted. The operating mechanism explaining these effects is later exposed via Scanning Electron Microscopy (SEM).

平项山

游行

Fundamental Performance of UHDMC with PVA Fibers,)-based composites. This chapter introduces the effects of fly ash (FA) content, polyvinyl alcohol (PVA) fiber volume fraction (.), sand to binder mass ratio (.), and water to solid mass ratio (.) on the workability, compressive strength, tensile properties, and flexural properties of the UHDMC. The

减震

注意

Performance Improvement and Design of UHDMC Using Fly Ash and Silica Fume,chanical examination of UHDMC revealed significant enhancements in both ultimate tensile stress and strain when 30% FA and 20% SF substitutions for MPC were applied. Remarkably, an optimized mix of FA and SF enhanced both the ultimate tensile stress and strain. Subsequent investigation into micro-me

analogous

Performance Improvement and Design of UHDMC Using PE Fibers,f the magnesium oxide to potassium dihydrogen phosphate mass ratio (.), quartz sand particle size (Sd), water to solid mass ratio (.), sand to binder mass ratio (.), fly ash (FA) content, fiber volume fraction (.), curing temperature, and curing age on the micro-mechanical properties and macro-mecha

neolith

Water Stability of UHDMC,owever, the broader use of UHDMCs is restrained due to the defective stability of magnesium phosphate cement (MPC) in wet or humid conditions. This chapter presents a sequence of tests to study the influence of factors such as curing age under ambient conditions, duration of immersion in water, wate

隐藏

Preparation and Performance of Sprayable UHDMC,ther content, water–solid ratio, powder-binder ratio (.), borax content (.), fly ash (FA) substitution and polyvinyl alcohol (PVA) fibers volume content on the shootability, rheological and mechanical properties of magnesium phosphate cement-based materials. The correlation between shootability fact