本书根据土木工程专业本科生培养要求,针对双语教学,在参考多部国外很好原版教材的基础上,以突出重点、注重实用为原则编写。
本书共分7章,内容包括:绪论、土木工程材料的基本概念、无机胶凝材料、砂石材料、水泥混凝土、结构钢材、沥青与沥青混合料等。为便于教学,各章后均附有思考题,书后附有专业英语词汇表。
本书可作为高等学校土木工程专业以及土建类其?专业本科的双语教学用书或教学参考书,也可供相关专业研究生及土木工程技术人员参考。
CHAPTER I Introduction
1.1 Material Science and Engineering
1.2 A Historical Perspective
1.2.1 Critical Position in Civil Engineering
1.2.2 Historical Progress
1.2.3 Future Tendency
1.3 Classification, Properties and Selection
1.3.1 Classification
1.3.2 Properties
1.3.3 Selection and Use
1.4 Standards
Problems
CHAPTER 2 Concepts of Civil Engineering Materials
2.1 Physical Properties
2. 1. 1 Density, Apparent Density, Bulk Density and Loose Density
2.1.2 Solidity and Porosity
2.2 Mechanical Properties ~
2.2.1 Strength
2.2.2 Stress and Strain
2.2.3 Elastic and Plastic Deformation
2.2.4 Brittleness, Ductility and Toughness
2.2.5 Hardness and Wear Resistance
2.3 Properties Related to WateP
2.3.1 Hydrophilic & Hydrophobic Property
2.3.2 Water Absorption and Hygroscopicity
2.3.3 Water Resistance
2.3.4 Impermeability
2.3.5 Freezing and Thawing Resistance
2.4 Durability
Problems
CHAPTER 3 Inorganic Binding Materials
3.1 Introduction
3.1.1 Hydraulic Cement
3.1.2 Nonhydraulic Cement
3.2 Portland Cement
3.2.1 Manufacture
3.2.2 Cement Chemistry
3.2.3 Hydration
3.2.4 Pores in Hydrated Cement
3.2.5 Properties
3.2.6 Corrosion and Prevention
3.3 Mineral Admixtures and Blended Cements
3.3.1 Mineral Admixtures
3.3.2 Blended Cements
3.4 Other Types of Cement
3.4. l High-alumina Cement
3.4.2 White Cement
3.4.3 Expansive Cement
3.4.4 Low-alkali Cement
Problems
CHAPTER 4 Aggregates
4.1 Introduction
4.2 Classification
4.2.1 Based on Source or Method of Manufacture
4.2.2 Based on Size
4.2.3 Based on Density
4.3 Properties
4.3.1 Particle Shape and Surface Texture
4.3.2 States Based on Moisture Level
4.3.3 Strength, Modulus of Elasticity and Impact Value
4.3.4 Chemical Properties
4.3.5 Soundness, Abrasion Resistance and Durability
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