Construction Materials土木工程材料

Construction Materials土木工程材料

《Construction Materials土木工程材料》是2014年8月中國建築工業出版社出版的圖書,作者是李宗津。

基本介紹

  • 書名:Construction Materials土木工程材料 
  • 作者:李宗津
  • 出版社:中國建築工業出版社
  • 出版時間:2014年8月
  • ISBN:9787112170531
內容簡介,目錄,

內容簡介

本書介紹了*的建築材料及其生產工藝、試驗方法和研究成果,獨特之處在於本書介紹了建築材料最基本的力學原理,強調了對建築材料成分及其微觀結構的研究,並針對現行標準規範提供了大量的試驗課程。本滲霸禁書主要內容包括:概述、建築材料性能愚迎多愚、骨您判艱料、膠凝材料、混凝土材漏章舟料、鋼材、纖維擊背蒸增強聚合物復閥兵合材料、木材、路面材料、裝飾及其他專用材棕籃局蘭料。

目錄

Chapter 1 Introduction
1.1 Historic development
1.2 Structural materials and structural design
1.3 Physical properties
1.3.1 Density, apparent density and packing density of matter
1.3.1.1 Density
1.3.1.2 Apparent density
1.3.1.3 Packing density
1.3.2 Porosity and void percentage
1.3.2.1 Porosity
1.3.2.2 Void percentage
1.3.3 Physical properties relevant to water
1.3.3.1 Hydrophilicity and hydrophobility
1.3.3.2 Water adsorption
1.3.3.3 Hygroscopicity
1.3.3.4 Water resistance (coefficient of softening)
1.3.3.5 Water impermeability
1.3.3.6 Frost resistance
1.3.4 Physical properties relevant to thermal effects
1.3.4.1 Thermal conductivity
1.3.4.2 Thermal capacity and specific heat capacity
1.3.4.3 Thermal expansion
1.3.4.4 Fire resistance and refractoriness
1.4 Chemical properties
1.4.1 Reactivity
1.4.2 Activation energy
1.5 Principles in the selection of materials
1.6 Innovations and development trends in construction materials
1.6.1 Functional materials
1.6.1.1 Cement-based piezoelectric materials
1.6.1.2 Thin-walled low frequency sound shielding material
1.6.1.3 Controllable heat insulation building products with phase changing materials (PCM)
1.6.1.4 Electromagnetic wave shielding and absorbing materials
1.6.2 Sustainability..Eco-friendly material development
1.6.2.1 Recycle and reuse of industry waste
1.6.2.2 New binders-energy efficient materials with less COe
1.6.3 Multiple disciplinary integrated materials
1.6.3.1 Nanotechnology in construction
1.6.3.2 Dynamic shading window system (DSWS)
1.6.3.3 Self-compacting concrete (SCC)
Discussion topics
References
Chapter 2 Mechanical behavior of materials
2.1 Material behavior and structural performance
2.2 Elastic behavior
2.2.1 Introduction
2.2.2 Physical basis of elastic behavior
2.2.3 Young's Modulus: definition, typical values and significance to structural design
2.2.4 Modulus of composite materials and application to reinforced concrete member
2.3 Plastic behavior
2.3.1 Phenomenon of plastic yielding
2.3.2 Physical basis of plastic behavior
2.3.3 Modeling of plastic behavior
2.3.4 Illustration of plastic behavior with a parallel system
2.4 Time dependent behavior--Creep
2.4.1 Phenomenon of time dependent behavior
2.4.2 Implications to structural design
2.4.3 Physical basis of time dependent behavior
2.4.4 Modeling of creep at low temperature with viscoelastic models
2.4.5 Strain response under arbitrary stress history superposition
2.5 Fracture
2.5.1 Introduction
2.5.2 Fast fracture: physical basis and modeling
2.5.3 Ductile to brittle failure transition of metal
2.5.4 Fatigue--phenomenon and empirical expressions
2.5.5 Physical basis of fatigue and K-based modeling
Discussion topics
Problems
References
……
Chapter 3 Aggregates
Chapter 4 Binder materials
Chapter 5 Concrete
Chapter 6 Steel
Chapter 7 Fiber reinforced polymer composites
Chapter 8 Wood
Chapter 9 Pavement materials
Chapter 10 Major non-structural materials
Construction Materials Laboratory
Index
1.5 Principles in the selection of materials
1.6 Innovations and development trends in construction materials
1.6.1 Functional materials
1.6.1.1 Cement-based piezoelectric materials
1.6.1.2 Thin-walled low frequency sound shielding material
1.6.1.3 Controllable heat insulation building products with phase changing materials (PCM)
1.6.1.4 Electromagnetic wave shielding and absorbing materials
1.6.2 Sustainability..Eco-friendly material development
1.6.2.1 Recycle and reuse of industry waste
1.6.2.2 New binders-energy efficient materials with less COe
1.6.3 Multiple disciplinary integrated materials
1.6.3.1 Nanotechnology in construction
1.6.3.2 Dynamic shading window system (DSWS)
1.6.3.3 Self-compacting concrete (SCC)
Discussion topics
References
Chapter 2 Mechanical behavior of materials
2.1 Material behavior and structural performance
2.2 Elastic behavior
2.2.1 Introduction
2.2.2 Physical basis of elastic behavior
2.2.3 Young's Modulus: definition, typical values and significance to structural design
2.2.4 Modulus of composite materials and application to reinforced concrete member
2.3 Plastic behavior
2.3.1 Phenomenon of plastic yielding
2.3.2 Physical basis of plastic behavior
2.3.3 Modeling of plastic behavior
2.3.4 Illustration of plastic behavior with a parallel system
2.4 Time dependent behavior--Creep
2.4.1 Phenomenon of time dependent behavior
2.4.2 Implications to structural design
2.4.3 Physical basis of time dependent behavior
2.4.4 Modeling of creep at low temperature with viscoelastic models
2.4.5 Strain response under arbitrary stress history superposition
2.5 Fracture
2.5.1 Introduction
2.5.2 Fast fracture: physical basis and modeling
2.5.3 Ductile to brittle failure transition of metal
2.5.4 Fatigue--phenomenon and empirical expressions
2.5.5 Physical basis of fatigue and K-based modeling
Discussion topics
Problems
References
……
Chapter 3 Aggregates
Chapter 4 Binder materials
Chapter 5 Concrete
Chapter 6 Steel
Chapter 7 Fiber reinforced polymer composites
Chapter 8 Wood
Chapter 9 Pavement materials
Chapter 10 Major non-structural materials
Construction Materials Laboratory
Index

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