Topicsctscivil.com/wp-content/uploads/2020/03/CE-278VideoNotess.pdf · In short, the trapezoidal...
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Loading Types•Support Types•Beam Types•Beam Reactions•
Topics
Lecture (1) - Basic Concepts
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Concentrated Force•Concentrated Moment•
Concentrated LoadUniformly Distributed Load (UDL)•Linearly Varying Distributed Load (LVDL)•
Distributed Load
Loading Types:
Support Types:
Roller
Hinge
Fixed
Introduction:
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Roller
Hinge
Fixed
Supports
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Beam Types:
Simply supported beams•One-sided over-hanging beam•Two-sided over-hanging beam•Cantilever beam•
Statically determinate beams:Continuous beam•End-supported cantilever•Fixed at both ends•
Statically indeterminate beams:
Introduction - Cont.
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Beam Reactions:
Sign Convention:
HOW?
Support Reactions
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Example (1)
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Example (2)
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Example (3)
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Why?○
Sign Convention○
Procedure○
Internal Forces in Beams•
Topics
Lecture (2) - Internal Forces (Beams)
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Why?Sign conventionProcedure
Internal Forces - Beams
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Example (1)
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Example (2)
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Example (3)
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Why?○
Sign Convention○
Procedure○
Shear Force and Bending Moment Diagrams•
Topics
Lecture (3) - V and M Diagrams
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Why?Sign conventionProcedure
Shear Force and Bending Moment Diagrams
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Procedure
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Example (1)
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Example (2)
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Example (3)
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Example (4)
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Example (5)
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Example (6)
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Truss main parts (Terminology)○
Assumptions○
Procedure (MOJ , MOS) & when to use which○
Sign convention (T or C)? ○
How to avoid confusion?○
Table for final answer○
What is a truss•
Topics
Lecture (4) - Trusses (MOJ)
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Examples
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What are they?
Trusses - Introduction
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Truss main parts (Terminology)
Truss main parts (Terminology)
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All members are connected only at their ends by frictionless hinges (No end moments)1-All loads and support reactions are applied only at the joints.2-The centroidal axis of each member coincides with the line connecting the centers of the adjacent joints.
3-
Procedure (MOJ , MOS)When to use MOJ and MOS?Sign convention (T or C)? How to avoid confusion?Table for final answer
Assumptions for Analysis of Trusses:
Two Force Members?!
Introduction Cont.
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Procedure Sign convention (T or C)? How to avoid confusion?Table for final answer
Method of Joints (MOJ)
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MOJ - Example
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MOJ - Example (1)
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Member Force (lb) Type
AB
BC
CD
DB
MOJ - Example (1) Cont
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MOJ - Example (2)
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Member Force (kN) Type
AB
BC
BD
AE
ED
MOJ - Example (2) Cont
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MOJ - Example (3)
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Member Force (N) Type
AB
BC
CB
BA
AC
MOJ - Example (3) Cont
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Idea! & when to use MOS•Procedure •Sign convention (T or C)? •How to avoid confusion?•Table for final answer•
Topics
Lecture (5) - Trusses (MOS)
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Idea! And when to use MOSProcedure Sign convention (T or C)? How to avoid confusion?Table for final answer
Method of Sections (MOS)
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Need GH, GD, and CD
MOS - Example (1)
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Member Force (k) Type
GH
GD
CD
MOS - Example (1) - Cont.
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Need DC, AC, and AB
MOS - Example (2)
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Member Force (N) Type
DC
AC
AB
MOS - Example (2) - Cont.
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Need HI, HC, and BC
MOS - Example (3)
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Member Force (k) Type
HI
HC
BC
MOS - Example (3) - Cont.
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Need GH, BH, and BC
MOS - Example (4)
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Member Force (k) Type
GH
BH
BC
MOS - Example (4) - Cont.
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What are Frames•Frame reactions•Frame internal forces•Sign convention? •How to avoid confusion?•
Topics
Lecture (6) - Internal Forces (Frames)
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What are they?
Structures having the combination of beam, column and slab to resist the lateral and gravity loads. Usually used to overcome the large moments developing due to the applied loading.
Rigid Structural Frame
Frames structures can be differentiated into:
Pin endedFixed ended
Rigid frame structure:
Gabled framesPortal frames
Braced frame structure:
Pin Ended Rigid Structural Frame Fixed Ended Rigid Structural Frame
Portal Structural Frame
Gabled Structural FrameBraced Structural Frame
Rigid frame structureBraced frame structure
Difference?!
Frame Analysis - Introduction
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Plane Frame(2D)
Space Frame(3D)
Reactions
Types:
Frame Analysis - Cont.
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Procedure Sign convention? How to avoid confusion?
Cut through desired point►
Get support reactions (if needed)►
Apply the 3 equilibrium equations►
Procedure
Internal Forces
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Frame Reactions + Internal Forces Example
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Frame Reactions (2)
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Internal Forces (1)
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Internal Forces (2)
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Internal Forces (3)
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Internal Forces (4)
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Why?•Deflected beams shapes•Factors?•Sign convention•Equations•
Topics
Lecture (7) - Beam Deflections
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Forms the basis for analysis and design of indeterminate structures. •To keep them within acceptable limits to avoid structural and none structural damages.
•
Why Study Beam Deflections?
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Examples of Beam Deflection
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Factor Symbol Type
Applied load w Directly proportional
Span length L Directly proportional
Modulus of Elasticity E Inversely proportional
Moment of Inertia I Inversely proportional
Factors Affecting Beam Deflections
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Tabulated Equations
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For the beam shown in the figure below, calculate the deflection mid-span of the beam shown in the figure. Given:
Example
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For the beam shown in the figure below, calculate the deflection of the beam at the mid-span. Given:
Example (2)
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Load Types •Load Categories•Load Combinations•D vs. L•Load Paths - Tributary Areas (Columns)•Load Paths - Tributary Areas (Beams)•
Topics
Lecture (8) - Loads on Structures
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Load Types Load CategoriesLoad CombinationsD vs. L
Applied over relatively small area○
Examples: Column loads, Vehicular wheel load
○
Concentrated loads:•
Distributed along a narrow strip of the structure
○
Examples: Beam self-weight, weight of wall or partition
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Line Loads:•
Distributed over an area of the structure
○
Examples: floor and roof loads○
Surface Line Loads:•
Load Types:
Loads on Structures - Introduction
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Various structural members & objects that are permanently attached.○
Can be calculated knowing the densities and dimensions of the structural components.
○
Unit weights of typical building materials (codes and standards)○
Unit weights of service equipment (Manufactures) ○
Small structures (small error) - can be ignored○
Multistory structures (high error) - cannot be ignored.○
Dead Loads:•
Roof Slab✓ Walls✓
Floor Slab✓ Windows✓
Beams✓ Plumbing✓
Girders✓ Electrical Fixtures✓
Columns✓ Ducts✓
Construction Materials
Density (kg/m3)*
Construction Materials
Density (kg/m3)*
Water 1000 Cement mortar 2080
Sandy soil 1800 Concrete (P.C.C) 2400
Clay soil 1900 Concrete (R.C.C) 2500
Gravel soil 2000 Steel 7850
Sandstone 2000 Cast iron 7208
Silt 2100 Copper 8940
Asphalt 721 Iron 7850
Cement 1440 Glass 2580
*Note: to convert density from kg/m3 to kN/m3, multiply by (9.806 x 10-3)
Load Categories - Dead Load
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Vertical loads due to human occupancy, snow, rain ponding, furniture, partition walls and moveable equipment.
○
Horizontal (lateral) loads due to wind, earthquake, water pressure, blast/explosion, collision, etc.
○
They can be caused by weights of objects temporarily placed on a structure, moving vehicles, or natural forces.
○
Live Loads:•
Building Loads✓ Snow Load✓
Highway Bridge Loads✓ Earthquake Loads✓
Railroad Bridge Loads✓ Hydrostatic Pressure✓
Impact Loads✓ Soil Pressure✓
Wind Loads✓ Other Environmental Loads✓
Floors are assumed to be under uniform live loads which depend on the purpose for which the building is designed.
○
These loads are usually tabulated in adapted code.○
These values include some protection against overloading, emergency situations, construction loads, and serviceability requirements due to vibration.
○
Load Categories - Live Load
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Why?How?
Source: International Building Code (2015)
Load Combinations
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Tributary Areas for beams and columns:
Beams: The area of slab that is supported by a particular beam is termed the beam's tributary area.
o
Columns: the area surrounding the column that is bounded by the panel centerlineso
Definition: •
Load Paths - Tributary Areas (Columns)
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Tributary area for interior columns is four time (4x) the tributary area typical corner column.
o
Tributary area for beams surrounding a “square” slab share equal portion of the load applied to that slab.
o
For rectangular slabs, the load shared by the beams in the short direction is triangular whereas the load shared by beams in the long direction is trapezoidal.
o
Notes:•
Load Paths - Tributary Areas (Beams)
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In short, the trapezoidal loads can be assumed as uniformly distributed over the beam span with some approximation techniques.
•
w: Uniformly distributed load per unit area
L: Span of beams
x: Maximum distance of loading to the desired beam
w: Equivalent load for bending momentcalculations under the condition that the load is distributed over the total span of the beam with the maximum intensity at mid span.
w: Equivalent load for reaction and shear forcecalculations for conditions not satisfied above.
L/2x 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0
0.667 0.725 0.769 0.803 0.830 0.853 0.870 0.885 0.897 0.908 0.917
0.5 0.544 0.583 0.615 0.642 0.667 0.688 0.706 0.722 0.737 0.75
Some tabulated values for ( & )
Approximate Methods:
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Columns A4, B3, and C4•Beams A1-B1, D1-D2, and A3-E3•
For the floor plan shown, if D = 3.4 kN/m2 and L = 2.4 kN/m2, find the ultimate loads on
Example (1) - D is known
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Example (1) - Cont.
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Concrete density (c) = 24 kN/m3•Mechanical, Electrical, and Piping = 0.6 kN/m2•Ceiling system = 0.35 kN/m2•Roofing = 0.30 kN/m2•Flooring = 0.50 kN/m2•
For the Floor plan shown, assuming L = 2.4 kN/m2, all slabs are 12 cm thick and:
Columns A4, B3, and C4•Beams A1-B1, D1-D2, and A3-E3•
Find loads on:
Example (2) - D is unknown
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Example (2) - Cont.
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Reinforced concrete (c) = 25 kN/m3•
Exterior wall (ew)= 16.50 kN/m3•
Calculate the ultimate load on the beam (C1-D1) shown in the figure assuming:
Example (3) - D is unknown + Wall
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Example (3) - Cont.
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