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Page 1
Instructional Objectives:
After reading this chapter the student will be able to
1. Analyse building frames by approximate methods for vertical loads.
2. Analyse building frames by the cantilever method for horizontal loads.
3. Analyse building frame by the portal method for horizontal loads.
36.1 Introduction
The building frames are the most common structural form, an analyst/engineer
encounters in practice. Usually the building frames are designed such that the
beam column joints are rigid. A typical example of building frame is the reinforced
concrete multistory frames. A two-bay, three-storey building plan and sectional
elevation are shown in Fig. 36.1. In principle this is a three dimensional frame.
However, analysis may be carried out by considering planar frame in two
perpendicular directions separately for both vertical and horizontal loads as
shown in Fig. 36.2 and finally superimposing moments appropriately. In the case
of building frames, the beam column joints are monolithic and can resist bending
moment, shear force and axial force. The frame has 12 joints , 15 beam
members( , and 9 reaction components
() j
) b ( ) r . Thus this frame is statically
indeterminate to degree() ( 18 3 12 9 15 3 ) = × - + × = (Please see lesson 1, module 1
for more details). Any exact method, such as slope-deflection method, moment
distribution method or direct stiffness method may be used to analyse this rigid
frame. However, in order to estimate the preliminary size of different members,
approximate methods are used to obtain approximate design values of moments,
shear and axial forces in various members. Before applying approximate
methods, it is necessary to reduce the given indeterminate structure to a
determinate structure by suitable assumptions. These will be discussed in this
lesson. In lesson 36.2, analysis of building frames to vertical loads is discussed
and in section 36.3, analysis of building frame to horizontal loads will be
discussed.
Page 2
Instructional Objectives:
After reading this chapter the student will be able to
1. Analyse building frames by approximate methods for vertical loads.
2. Analyse building frames by the cantilever method for horizontal loads.
3. Analyse building frame by the portal method for horizontal loads.
36.1 Introduction
The building frames are the most common structural form, an analyst/engineer
encounters in practice. Usually the building frames are designed such that the
beam column joints are rigid. A typical example of building frame is the reinforced
concrete multistory frames. A two-bay, three-storey building plan and sectional
elevation are shown in Fig. 36.1. In principle this is a three dimensional frame.
However, analysis may be carried out by considering planar frame in two
perpendicular directions separately for both vertical and horizontal loads as
shown in Fig. 36.2 and finally superimposing moments appropriately. In the case
of building frames, the beam column joints are monolithic and can resist bending
moment, shear force and axial force. The frame has 12 joints , 15 beam
members( , and 9 reaction components
() j
) b ( ) r . Thus this frame is statically
indeterminate to degree() ( 18 3 12 9 15 3 ) = × - + × = (Please see lesson 1, module 1
for more details). Any exact method, such as slope-deflection method, moment
distribution method or direct stiffness method may be used to analyse this rigid
frame. However, in order to estimate the preliminary size of different members,
approximate methods are used to obtain approximate design values of moments,
shear and axial forces in various members. Before applying approximate
methods, it is necessary to reduce the given indeterminate structure to a
determinate structure by suitable assumptions. These will be discussed in this
lesson. In lesson 36.2, analysis of building frames to vertical loads is discussed
and in section 36.3, analysis of building frame to horizontal loads will be
discussed.
Page 3
Instructional Objectives:
After reading this chapter the student will be able to
1. Analyse building frames by approximate methods for vertical loads.
2. Analyse building frames by the cantilever method for horizontal loads.
3. Analyse building frame by the portal method for horizontal loads.
36.1 Introduction
The building frames are the most common structural form, an analyst/engineer
encounters in practice. Usually the building frames are designed such that the
beam column joints are rigid. A typical example of building frame is the reinforced
concrete multistory frames. A two-bay, three-storey building plan and sectional
elevation are shown in Fig. 36.1. In principle this is a three dimensional frame.
However, analysis may be carried out by considering planar frame in two
perpendicular directions separately for both vertical and horizontal loads as
shown in Fig. 36.2 and finally superimposing moments appropriately. In the case
of building frames, the beam column joints are monolithic and can resist bending
moment, shear force and axial force. The frame has 12 joints , 15 beam
members( , and 9 reaction components
() j
) b ( ) r . Thus this frame is statically
indeterminate to degree() ( 18 3 12 9 15 3 ) = × - + × = (Please see lesson 1, module 1
for more details). Any exact method, such as slope-deflection method, moment
distribution method or direct stiffness method may be used to analyse this rigid
frame. However, in order to estimate the preliminary size of different members,
approximate methods are used to obtain approximate design values of moments,
shear and axial forces in various members. Before applying approximate
methods, it is necessary to reduce the given indeterminate structure to a
determinate structure by suitable assumptions. These will be discussed in this
lesson. In lesson 36.2, analysis of building frames to vertical loads is discussed
and in section 36.3, analysis of building frame to horizontal loads will be
discussed.
Page 4
Instructional Objectives:
After reading this chapter the student will be able to
1. Analyse building frames by approximate methods for vertical loads.
2. Analyse building frames by the cantilever method for horizontal loads.
3. Analyse building frame by the portal method for horizontal loads.
36.1 Introduction
The building frames are the most common structural form, an analyst/engineer
encounters in practice. Usually the building frames are designed such that the
beam column joints are rigid. A typical example of building frame is the reinforced
concrete multistory frames. A two-bay, three-storey building plan and sectional
elevation are shown in Fig. 36.1. In principle this is a three dimensional frame.
However, analysis may be carried out by considering planar frame in two
perpendicular directions separately for both vertical and horizontal loads as
shown in Fig. 36.2 and finally superimposing moments appropriately. In the case
of building frames, the beam column joints are monolithic and can resist bending
moment, shear force and axial force. The frame has 12 joints , 15 beam
members( , and 9 reaction components
() j
) b ( ) r . Thus this frame is statically
indeterminate to degree() ( 18 3 12 9 15 3 ) = × - + × = (Please see lesson 1, module 1
for more details). Any exact method, such as slope-deflection method, moment
distribution method or direct stiffness method may be used to analyse this rigid
frame. However, in order to estimate the preliminary size of different members,
approximate methods are used to obtain approximate design values of moments,
shear and axial forces in various members. Before applying approximate
methods, it is necessary to reduce the given indeterminate structure to a
determinate structure by suitable assumptions. These will be discussed in this
lesson. In lesson 36.2, analysis of building frames to vertical loads is discussed
and in section 36.3, analysis of building frame to horizontal loads will be
discussed.
36. 2 Analysis of Building Frames to Vertical Loads
Consider a building frame subjected to vertical loads as shown in Fig.36.3. Any
typical beam, in this building frame is subjected to axial force, bending moment
and shear force. Hence each beam is statically indeterminate to third degree and
hence 3 assumptions are required to reduce this beam to determinate beam.
Before we discuss the required three assumptions consider a simply supported
beam. In this case zero moment (or point of inflexion) occurs at the supports as
shown in Fig.36.4a. Next consider a fixed-fixed beam, subjected to vertical loads
as shown in Fig. 36.4b. In this case, the point of inflexion or point of zero moment
occurs at from both ends of the support. L 21 . 0
Page 5
Instructional Objectives:
After reading this chapter the student will be able to
1. Analyse building frames by approximate methods for vertical loads.
2. Analyse building frames by the cantilever method for horizontal loads.
3. Analyse building frame by the portal method for horizontal loads.
36.1 Introduction
The building frames are the most common structural form, an analyst/engineer
encounters in practice. Usually the building frames are designed such that the
beam column joints are rigid. A typical example of building frame is the reinforced
concrete multistory frames. A two-bay, three-storey building plan and sectional
elevation are shown in Fig. 36.1. In principle this is a three dimensional frame.
However, analysis may be carried out by considering planar frame in two
perpendicular directions separately for both vertical and horizontal loads as
shown in Fig. 36.2 and finally superimposing moments appropriately. In the case
of building frames, the beam column joints are monolithic and can resist bending
moment, shear force and axial force. The frame has 12 joints , 15 beam
members( , and 9 reaction components
() j
) b ( ) r . Thus this frame is statically
indeterminate to degree() ( 18 3 12 9 15 3 ) = × - + × = (Please see lesson 1, module 1
for more details). Any exact method, such as slope-deflection method, moment
distribution method or direct stiffness method may be used to analyse this rigid
frame. However, in order to estimate the preliminary size of different members,
approximate methods are used to obtain approximate design values of moments,
shear and axial forces in various members. Before applying approximate
methods, it is necessary to reduce the given indeterminate structure to a
determinate structure by suitable assumptions. These will be discussed in this
lesson. In lesson 36.2, analysis of building frames to vertical loads is discussed
and in section 36.3, analysis of building frame to horizontal loads will be
discussed.
36. 2 Analysis of Building Frames to Vertical Loads
Consider a building frame subjected to vertical loads as shown in Fig.36.3. Any
typical beam, in this building frame is subjected to axial force, bending moment
and shear force. Hence each beam is statically indeterminate to third degree and
hence 3 assumptions are required to reduce this beam to determinate beam.
Before we discuss the required three assumptions consider a simply supported
beam. In this case zero moment (or point of inflexion) occurs at the supports as
shown in Fig.36.4a. Next consider a fixed-fixed beam, subjected to vertical loads
as shown in Fig. 36.4b. In this case, the point of inflexion or point of zero moment
occurs at from both ends of the support. L 21 . 0
Now consider a typical beam of a building frame as shown in Fig.36.4c. In this
case, the support provided by the columns is neither fixed nor simply supported.
For the purpose of approximate analysis the inflexion point or point of zero
moment is assumed to occur at L
L
1 . 0
2
21 . 0 0
˜
?
?
?
?
?
? +
from the supports. In reality
the point of zero moment varies depending on the actual rigidity provided by the
columns. Thus the beam is approximated for the analysis as shown in Fig.36.4d.
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FAQs on Building Frames - Structural Analysis - Civil Engineering (CE)
| 1. What are building frames in civil engineering? |  |
Ans. Building frames in civil engineering are structural systems that provide stability and support to buildings. They consist of a combination of columns, beams, and connections that work together to resist gravity loads, lateral forces, and other external loads.
| 2. How are building frames designed in civil engineering? | |
Ans. Building frames in civil engineering are designed by considering various factors such as building height, load requirements, site conditions, and architectural considerations. Engineers use computer software and design codes to analyze and optimize the frame's structural elements to ensure they can safely withstand the loads they will be subjected to.
| 3. What are the advantages of using building frames in civil engineering? | |
Ans. Building frames offer several advantages in civil engineering. They provide structural integrity, allowing for efficient use of space, flexibility in architectural design, and the ability to resist external forces such as wind and earthquakes. Building frames also allow for easier construction, as prefabricated components can be used and assembled on-site.
| 4. What types of building frames are commonly used in civil engineering? | |
Ans. In civil engineering, the most common types of building frames include steel frames, reinforced concrete frames, and timber frames. Steel frames are popular for their strength, durability, and flexibility. Reinforced concrete frames offer excellent fire resistance and can be used for taller buildings. Timber frames are often used in low-rise structures due to their cost-effectiveness and sustainability.
| 5. What considerations should be made when selecting a building frame in civil engineering? | |
Ans. When selecting a building frame in civil engineering, factors such as structural requirements, construction materials, cost, aesthetics, and environmental impact should be considered. The frame should be able to meet the design loads, provide the desired architectural features, be within the project budget, and align with sustainability goals. Consulting with structural engineers and architects is crucial for making an informed decision.
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