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Simplified Design of Masonry Structures [Minkštas viršelis]

4.33/5 (5 ratings by Goodreads)
(Formerly, University of Southern California, Los Angeles)
  • Formatas: Paperback / softback, 224 pages, aukštis x plotis x storis: 258x171x12 mm, weight: 376 g
  • Serija: Parker/Ambrose Series of Simplified Design Guides
  • Išleidimo metai: 07-Mar-1997
  • Leidėjas: John Wiley & Sons Inc
  • ISBN-10: 0471179884
  • ISBN-13: 9780471179887
Kitos knygos pagal šią temą:
Simplified Design of Masonry StructuresDidesnis paveikslėlis
  • Formatas: Paperback / softback, 224 pages, aukštis x plotis x storis: 258x171x12 mm, weight: 376 g
  • Serija: Parker/Ambrose Series of Simplified Design Guides
  • Išleidimo metai: 07-Mar-1997
  • Leidėjas: John Wiley & Sons Inc
  • ISBN-10: 0471179884
  • ISBN-13: 9780471179887
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780471179887.html
Raktažodžiai:
A complete, accessible introduction to structural masonry fundamentals.

This practical volume provides a thorough grounding in the design of masonry structures for buildings --with clear and easy-to-grasp coverage of basic materials, construction systems, building codes, industry standards, and simple computations for structural elements of commonly used forms of masonry. Well-written and carefully organized, the book:
* Includes all principal types of masonry materials: brick, stone, fired clay, concrete block, glass block, and more
* Contains information on unreinforced, reinforced, and veneered construction
* Examines key design criteria: dead loads, live loads, lateral loads, structural planning, building code requirements, and performance measurement
* Features helpful study aids --including exercises and solutions, glossary of terms, bibliography, and detailed appendices.


Requiring only minimal prior experience in engineering analysis or design, Simplified Design of Masonry Structures is ideal for self-study or classroom use. It is an essential reference for architecture and engineering students and professionals.
Preface ix
1. Introduction
1(10)
1.1. Masonry in Building Construction
1(1)
1.2. Structural Masonry
1(1)
1.3. Historical Development of Masonry
2(1)
1.4. Current Uses of Masonry
2(1)
1.5. Design and Construction Standards
3(1)
1.6. Sources of Design Information
4(1)
1.7. Structural Computations
5(1)
1.8. Use of Computers
5(1)
1.9. Units of Measurement
5(3)
1.10. Symbols
8(1)
1.11. Nomenclature
8(3)
2. Materials for Masonry Construction
11(12)
2.1. Masonry Units
11(1)
2.2. Basic Construction Terminology
12(2)
2.3. Stone
14(2)
2.4. Fired Clay
16(1)
2.5. Concrete Masonry Units
16(1)
2.6. Miscellaneous Masonry Units
17(1)
2.7. Mortar
17(1)
2.8. Reinforcement
18(1)
2.9. Lintels
19(1)
2.10. Accessories
20(3)
3. Types of Masonry Construction
23(12)
3.1. Historical Forms of Construction
23(1)
3.2. Contemporary Construction
23(2)
3.3. Nonstructural Masonry
25(1)
3.4. Structural Masonry
25(2)
3.5. Unreinforced Construction
27(3)
3.6. Reinforced Construction
30(2)
3.7. Veneered Construction
32(1)
3.8. Structural Design Standards
33(2)
4. Brick Masonry
35(20)
4.1. Types of Bricks
35(1)
4.2. Arrangement of Units in Brick Walls
36(2)
4.3 Mortar Joints
38(3)
4.4. Typical Elements of Brick Construction
41(1)
4.5. General Concerns for Brick Walls
42(2)
4.6. Brick Bearing Walls
44(6)
4.7. Reinforced Brick Masonry
50(1)
4.8. Miscellaneous Brick Construction
51(4)
5. Masonry with Concrete Units
55(36)
5.1. Types of Concrete Masonry Units (CMUs)
55(2)
5.2. Unreinforced Construction
57(2)
5.3. Reinforcement for Unreinforced Construction
59(1)
5.4. Reinforced Construction
60(2)
5.5. Bearing Walls
62(5)
5.6. Basement Walls
67(3)
5.7. Retaining Walls
70(5)
5.8. Shear Walls
75(10)
5.9. Pedestals
85(2)
5.10. Columns
87(4)
6. Stone Masonry
91(6)
6.1. Rubble and Field Stone Construction
91(3)
6.2. Cut Stone Construction
94(1)
6.3. Construction Without Mortar
95(2)
7. Miscellaneous Masonry Construction
97(6)
7.1. Adobe
97(1)
7.2 Glass Block
98(3)
7.3. Clay Tile
101(2)
8. Use of Structural Masonry for Buildings
103(6)
8.1. Regional Considerations
103(2)
8.2. Choice of Construction
105(1)
8.3. Details of Construction
105(1)
8.4. Enhancements
105(4)
9. General Concerns for Building Structures
109(14)
9.1 Introduction
109(1)
9.2 Dead Loads
109(2)
9.3 Building Code Requirements
111(2)
9.4. Live Loads
113(3)
9.5 Lateral Loads
116(3)
9.6 Structural Planning
119(2)
9.7 Systems Integration
121(1)
9.8 Economics
121(2)
10. Building Structures: Design Examples
123(24)
10.1 Building 1
123(1)
10.2 Building 1: Design for Gravity Loads
124(4)
10.3 Building 1: Design for Lateral Loads
128(4)
10.4 Building 2: Alternative 1
132(3)
10.5 Building 2: Alternative 2
135(1)
10.6 Building 3
135(5)
10.7 Building 3: Design of the Masonry Structure
140(7)
Appendixes
A. Investigation of Compression Elements
147(14)
A.1 Types of Compression Elements
147(1)
A.2 Short Compression Elements
148(1)
A.3 Slender Compression Elements
149(1)
A.4 Range of Slenderness
150(1)
A.5 Interaction: Compression Plus Bending
150(2)
A.6 The P-Delta Effect
152(1)
A.7 Compression in Confined Materials
153(1)
A.8 Combined Stress: Compression Plus Bending
154(4)
A.9 Composite Elements
158(3)
B. Investigation and Design of Reinforced Concrete: Working Stress Method
161(12)
B.1. Flexure--Rectangular Section with Tension Reinforcement Only
161(2)
B.2. Reinforced Concrete Columns
163(3)
B.3. Design of Tied Columns
166(3)
B.4. Applications to Masonry
169(4)
C. Design Aids for Masonry Structures
173(6)
C.1. Wall Reinforcement
173(1)
C.2. Flexure in Masonry Walls
174(3)
C.3. Stiffness Factors for Masonry Piers
177(2)
Study Aids 179(10)
Words and Terms 179(2)
General Questions 181(2)
Exercise Problems 183(2)
Answers to General Questions 185(2)
Answers to Exercise Problems 187(2)
Glossary 189(8)
Bibliography 197(2)
Index 199


James Ambrose is Editor of the Parker/Ambrose Series of Simplified Design Guides. He has practiced as an architect in California and Illinois, and as a structural engineer in Illinois. He recently retired as professor of architecture at the University of Southern California.