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Materials for Civil and Construction Engineers in SI Units

Materials for Civil and Construction Engineers in SI Units

Autorzy
Wydawnictwo Pearson Education Limited
Data wydania 08/08/2017
Wydanie Czwarte
Liczba stron 664
Forma publikacji książka w miękkiej oprawie
Poziom zaawansowania Dla szkół wyższych i kształcenia podyplomowego
ISBN 9781292154404
Kategorie Nauka o materiałach, Konstrukcje budowlane i materiały
292.00 PLN (z VAT)
$79.67 / €68.87 / £60.58 /
Produkt dostępny
Przesyłka w 2 dni
Ilość
Do schowka

Opis książki

For courses in Civil Engineering Materials, Construction Materials, and Construction Methods & Materials offered in Civil, Environmental, or Construction engineering departments. Civil and Construction Engineering Materials: Properties, Uses, and Evaluations Materials for Civil and Construction Engineers helps students understand and select the materials involved in supporting the infrastructure needs of society--from buildings, to water and treatment distribution systems, to dams, highways, and airport pavements. By gaining a deep understanding of material behavior and the material selection process, students can begin to understand how to create and maintain civil and construction engineering systems crucial to society. The primary focus of the updates presented in this fourth edition was on the sustainability of materials used in civil and construction engineering. The information on sustainability was updated and expanded to include the most recent information. In addition, sections were added describing the sustainability considerations of each material. The problem set for each chapter was updated and increased to provide some fresh exercises. References were updated and increased in all chapters to provide students with additional reading on current issues related to different materials.

Materials for Civil and Construction Engineers in SI Units

Spis treści

ONE Materials Engineering Concepts
1.1 Economic Factors
1.2 Mechanical Properties
1.2.1 Strain Relations
1.2.3 1.2.6 hetic Characteristics
1.6 Sustainable Design
1.7 Material Variability
1.7.1 ential Transformer (LVDT)
1.8.3





TWO Nature of Materials
2.1 Basic Materials Concepts
2.1.1 Electron Configuration
2.1.2 3 Inorganic Solids
2.4 Organic Solids
2.4.1





THREE Steel
3.1 Steel Production
3.2 IronCarbon Phase Diagram
3.3 Heat Treatment of Steel
3.3.1 5.2 8 Reinforcing Steel
3.8.1 Ultrasonic Testing
3.10 Welding
3.11 Steel Corrosion
3.11.1

3.12 Steel Sustainability

3.12.1

3.12.2

Summary

Questions and Problems

3.13 References







FOUR Aluminum
4.1 Aluminum Production
4.2 Aluminum Metallurgy
4.2.1 4.3 Aluminum Testing and Properties
4.4 Welding and Fastening
4.5 Corrosion

4.6 Aluminum Sustainability

4.6.1 s

4.6.2 Summary
Questions and Problems
4.7 References





FIVE Aggregates
5.1 Aggregate Sources
5.1 Aggregate Sources
5.2 Geological Classification
5.3 Evaluation of Aggregate Sources
5.4 Aggregate Uses
5.5 Aggregate Properties
5.5.1 le Shape and Surface Texture
5.5.2 s and Durability
5.5.3 ess, and Abrasion Resistance
5.5.4 5.5.6 eight and Voids in Aggregate
5.5.7 ength and Modulus
5.5.8 5.5.9 nd Deleterious Materials
5.5.10 AlkaliAggregate Reactivity
5.5.11 5.7 Aggregates Sustainability

5.7.1 rations

5.7.2

Summary

Questions and Problems
5.8 References





SIX Portland Cement, Mixing Water, and Admixtures
6.1 Portland Cement Production
6.2 Chemical Composition of Portland Cement
6.3 Fineness of Portland Cement
6.4 Specific Gravity of Portland Cement
6.5 Hydration of Portland Cement
6.5.1 Development in Cement Paste
6.5.2 uation of Hydration Progress
6.6 Voids in Hydrated Cement
6.7 Properties of Hydrated Cement
6.7.1 6.7.3 mpressive Strength of Mortar
6.8 WaterCement Ratio
6.9 Types of Portland Cement
6.9.1 6.9.2 6.10.1 6.10.2 Reuse of Concrete Wash Water
6.11 Admixtures for Concrete
6.11.1 6.11.4 Hydration-Control Admixtures
6.11.5 6.11.6 6.12 Supplementary Cementitious Materials
6.13 Cement Sustainability

6.13.1

6.13.2

Summary
Questions and Problems
6.14 References






SEVEN Portland Cement Concrete
7.1 Proportioning of Concrete Mixes
7.1.1 Basic Steps for Weight and Absolute Volume Methods
7.1.2 xing Concrete for Small Jobs
7.2 Mixing, Placing, and Handling Fresh Concrete
7.2.1 7.2.2 e
7.2.3 Concrete
7.2.5 7.2.6 Precautions for Mixing Water
7.2.7 ir Content in Fresh Concrete
7.2.8 ading and Finishing Concrete
7.3 Curing Concrete
7.3.1 gging
7.3.3 7.3.4 ous Papers or Plastic Sheets
7.3.5 Membrane-Forming Compounds
7.3.6 7.3.8 nsulating Blankets or Covers
7.3.9 Hot Oil, and Infrared Curing
7.3.10 7.4 Properties of Hardened Concrete
7.4.1 7.4.4 ressStrain Relationship
7.5 Testing of Hardened Concrete
7.5.1 -Tension Test
7.5.3 7.5.5 Penetration Resistance Test
7.5.6 nic Pulse Velocity Test
7.5.7 .6.2 Compacted Concrete
7.6.11

7.6.12

7.7 Concrete Sustainability

7.7.1



7.7.2
Summary
Questions and Problems
7.8 References

EIGHT Masonry
8.1 Masonry Units
8.1.1 8.4 Plaster



8.5 Masonary Sustainability

8.5.1



8.5.2
Summary
Questions and Problems
8.6 References





NINE Asphalt Binders and Asphalt Mixtures
9.1 Types of Asphalt Cement Products
9.2 Uses of Asphalt
9.3 Temperature Susceptibility of Asphalt
9.4 Chemical Properties of Asphalt
9.5 Superpave and Performance Grade Binders
9.6 Characterization of Asphalt Cement
9.6.1 halt Emulsions
9.8 Asphalt Concrete
9.9 Asphalt Concrete Mix Design
9.9.1 9.6 9.10.2 9.11 Hot-Mix Asphalt Concrete Production and Construction

9.11.1 terials

9.11.2

9.11.3

9.12 Recycling of Asphalt Concrete

9.12.1

9.12.2

9.12.3

9.13 Additives

9.13.1

9.13.2 s

9.13.3

9.13.4

9.13.5

9.14 W arm Mix

9.15 Asphalt Sustainability

9.15.1

9.15.2

Summary

Questions and Problems

9.16 References





TEN Wood
10.1 Structure of Wood
10.1.1 des
10.5.2 gth Properties
10.8.3 ions
10.11 Organisms that Degrade Wood
10.11.1 10.12.4 10.14 Wood Sustainability

10.14.1

10.14.2 ility Considerations

Summary
Questions and Problems
10.15 References





ELEVEN Composites
11.1 Microscopic Composites
11.1.1 il Engineering Applications
11.2 Macroscopic Composites
11.2.1 11.3 Properties of Composites
11.3.1 ngth of Composite

11.3.2

11.4 Composites Sustainability

11.4.1

11.4.2 Summary
Questions and Problems
11.5 References
Appendix





Laboratory Manual






Introduction to Measuring Devices




Tension Test of Steel and Aluminum




Torsion Test of Steel and Aluminum




Impact Test of Steel




Microscopic Inspection of Materials




Creep in Polymers




Sieve Analysis of Aggregates




Specific Gravity and Absorption of Coarse Aggregate




Specific Gravity and Absorption of Fine Aggregate




Bulk Unit Weight and Voids in Aggregate




Slump of Freshly Mixed Portland Cement Concrete




Unit Weight and Yield of Freshly Mixed Concrete




Air Content of Freshly Mixed Concrete by Pressure Method




Air Content of Freshly Mixed Concrete by Volumetric Method




Making and Curing Concrete Cylinders and Beams




Capping Cylindrical Concrete Specimens with Sulfur or Capping Compound




Compressive Strength of Cylindrical Concrete Specimens




Flexural Strength of Concrete




Rebound Number of Hardened Concrete




Penetration Resistance of Hardened Concrete




Testing of Concrete Masonry Units




Viscosity of Asphalt Binder by Rotational Viscometer




Dynamic Shear Rheometer Test of Asphalt Binder




Penetration Test of Asphalt Cement




Absolute Viscosity Test of Asphalt




Preparing and Determining the Density of Hot-Mix Asphalt (HMA) Specimens by Means of the Superpave Gyratory Compactor




Preparation of Asphalt Concrete Specimens Using the Marshall Compactor




Bulk Specific Gravity of Compacted Bituminous Mixtures




Marshall Stability and Flow of Asphalt Concrete




Bending (Flexure) Test of Wood




Tensile Properties of Composites





Effect of Fiber Orientation on the Elastic Modulus of Fiber Reinforced Composites

Index

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