Book information
Design optimization and reasonable construction of multi-storey and high-rise reinforced concrete structures
Press: China Building Industry Press
Text Language: Simplified Chinese
ISBN:9787 1 12 104000
Bar code: 9787112104000.
Product size: 25.6x1.8cm.
Product weight: 680g
ASIN: B00 1OAMQ7A
B00 1OAMQ7A
brief Introduction of the content
The design optimization and reasonable structure of multi-storey reinforced concrete structure is written for how to optimize the design and reasonable structure in the design of multi-storey reinforced concrete structure. Chapter 13: Overview, basic provisions, foundation and basement structure, floor structure, frame structure, shear wall structure, frame-shear wall structure and slab-column-shear wall structure. Shear wall structure with large space at the bottom, tube structure, complex structure with large chassis, multi-tower, conjoined structure, staggered floor and column conversion, mixed structure, economic indicators of various building structures. This book is accompanied by many engineering examples.
catalogue
The first chapter is an overview.
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2. The implementation of specifications and procedures should be treated differently according to specific projects.
3. Local standards are the supplement and extension of norms and regulations.
4. The structural design technology should be innovative and the concept should adapt to the market economy.
5. The importance of structural conceptual design
6. It is necessary to analyze and judge the calculation results of structural analysis software.
Chapter II Basic Provisions
1. Provisions related to loading codes
2. Design service life and safety level of the structure
3. Seismic fortification classification and seismic grade
4. Basic principles of structural seismic design
5. Applicable height and height-width ratio of multi-storey and high-rise buildings.
6. Important provisions on the plane and vertical layout of building structures
7. Limit the irregularity of building structure by calculation.
8. Horizontal displacement limit and comfort requirements of building structures
9. Calculation and application scope of three kinds of lateral stiffness
10. Provisions on embedded parts of superstructure
1 1. Reinforced concrete members can be calculated by considering the redistribution of plastic internal forces.
12. Rules for structural audit of out-of-code high-rise buildings
Chapter III Foundation and Basement Structure
1. Foundation selection and foundation buried depth
2. Modification of bearing capacity of natural foundation
3. Foundation selection of multi-storey and high-rise buildings
4. Anti-floating design water level and anti-floating stability calculation
5. Control of uneven settlement between main building and podium or underground garage foundation
6. Structural selection of basement and underground garage floor of high-rise main building
7. Calculation and construction of basement exterior wall
8. Raft design for basement of multi-storey high-rise building
9. Ductility can be ignored for basement foundation beams.
10. Structure of post-pouring zone and irrigation time
1 1. Treatment of basement basement height difference.
12. Independent column foundation with tension beam
13. Construction of super-long foundation raft by "jumping bin method"
14. Engineering example
Chapter IV Floor Structure
1. Selection of floor structure
2. Determination of floor thickness and beam section height
3. The relevant provisions of the structure
4. Manual calculation method of beam and one-way slab
5. Calculation and application chart of shear bearing capacity of inclined section of beam
6. Hand calculation method and application chart of beam torsion section bearing capacity
7. Checking calculation of component crack width
8. Flexural member deflection calculation and application chart
9. When the main beam supports the secondary beam or the upper column with concentrated load, the determination and application diagram of additional transverse reinforcement.
10. The floor beam is supported on the main beam or shear wall according to the calculation conditions of fixed connection.
1 1. The ductility can be ignored in the design of floor beam.
12. Scope of application of post-tensioned unbonded prestressed cast-in-place floor slab
13. The floor beam adopts sectional variable height to meet the needs of use function.
14. design of common irregular floors and balconies in residential buildings
Chapter V Frame Structure
Characteristics and layout of frame structure
2. Frame beam section design and application chart
3. Frame column section design and application chart
4. Design of columns (short columns) with small shear span ratio
5. Seismic checking calculation of core area of frame beam-column joints
6. Calculation and structure of opening on beam
Chapter VI Shear Wall Structure
1. Characteristics and application scope of shear wall structure
2. Classification and ductility of shear walls
3. Design points of general shear wall structure
4. Structural layout
5. Seismic grade and height of bottom reinforcement
6. Determination of shear wall thickness
7. Design of short-leg shear wall structure
8. Constraint Edge Components and Structural Edge Components and Application Diagram
9. Horizontal and vertical distribution of reinforcement in shear wall
10. Example
1 1. Ductility and design of coupling beam
12. Design of multi-story shear wall structure
13. Design of low and few walls in shear wall structure
Chapter VII Frame-shear wall structure
1. Characteristics of frame-shear wall structure
2. Structural layout
3. Simplified method to determine the reasonable number of shear walls
4. Seismic grade
5. Internal force adjustment
6. Structural requirements
Chapter VIII Plate-Column-Shear Wall Structure
1. Structural characteristics and application scope
2. Structural layout
3. Internal force calculation
4. Section design
5. Structural requirements
6. examples
Chapter 9 Shear Wall Structure with Large Space at the Bottom
1. Structural characteristics and application scope
2. Design principles
3. Key points of structural design
4. Structural layout
5. Seismic grade
6. Height of bottom reinforcement and adjustment of internal force of structure
7. Design of conversion element
Chapter 10 Simplifying the Structure
1. Simplify the classification and mechanical properties of structures.
2. Design points of frame-core tube structure
3. Key design points of tube-in-tube structure
4. Function and design points of strengthening layer
5. The relevant provisions of "Shanghai Simplified Regulations" and "Guangdong High-Regulation Supplement"
6. Example of tube structure engineering
Chapter 11 Complex structures such as multi-tower, conjoined, staggered floor and column conversion of large chassis.
1. Multi-tower structure with large chassis
2. conjoined structure
3. Staggered structure
4. Vertical column conversion structure
Chapter 12 Mixed Structure
1. Structural characteristics and application scope
2. Seismic grade
3. Structural layout
4. Key points of structural design
5. Structural structure
6. Calculation of bearing capacity
7. Structural details
Chapter XIII Economic indicators of various building structures
1. The necessity of mastering economic indicators
2. Statistics of some national projects
3. Engineering material consumption and cost statistics
4. Comparison of structural selection of underground garage
5. Comparison of structural selection of commercial buildings
6. Materials and cost of super high-rise building structure