CIEG 302: Structural Design
Syllabus
S-Steel Textbook
C-Concrete Textbook

Class Date Topic Chap/Sec Summary of Lectures
1 2/12
Chapters 1S, 1C
  • Course Outline
  • What is Design?
  • Design vs. Analysis
  • Failure Talk
2 2/14

Structural Systems, Members, Construction Materials

Lecture 2 Notes
Chapters 1S, 1C
  • AISC Steel Construction Video
  • Structural Systems Members
  • Loads and Load Paths
  • Material Properties (Steel & Concrete)
  • Fabrication Issues
3 2/19

Design Methodologies and Loads

Lecture 3 Notes
Chapters 2S, 1C
  • Material Properties (cont'd)
  • Allowable Stress Design
  • Ultimate State Design
  • Probabilistic-Based Design
  • Limit States
  • Load Combinations
  • Design Codes
4 2/21

Analysis and Design of Tension Members

Lecture 4 Notes
Chapter 3S, 4S
  • Limit States
  • Gross Area
  • Net Effective Area
  • Examples
5 2/26

Tension Members Continued

Lecture 5 Notes
Chapter 3S, 4S
  • Staggers
  • Examples
6 2/28

Tension Members Continued

Lecture 6 Notes
Chapter 3S, 4S
  • More Examples
7 3/4
Finish Tension Members, Design of Concrete Compression Members
Chapter 8C
  • Limit States
  • Concrete Columns
  • Strength Equations
  • Design Process
  • Concrete Column Design Examples
8 3/6

Concrete Compression Members Continued

Lecture 8 Notes
Chapters 8C, 5S
  • Ties and Spirals
  • Concrete Column Design Examples
9 3/11

Steel Compression Members Continued

Lecture 9 Notes
Chapter 5S
  • Steel Columns
  • Buckling
  • Residual Stresses
  • Euler "Elastic" Buckling
  • Effective Length
10 3/13
Steel Compression Members Continued
Chapter 5S
  • Recommended Effective Length
  • Local Buckling
  • AISC Column Formulas
  • Examples
11 3/18

Steel Compression Members Continued

Lecture 11 Notes
Chapter 6S
  • Examples
12 3/20

Steel Compression Members Continued

Lecture 12 Notes
Chapter 6S
  • Examples
13 3/25

Review

Review Notes
14 3/27
EXAM
SPRING BREAK 3/31 - 4/04
15 4/8

Design of Bending Members

Lecture 15 Notes
Chapters 2C,8S
  • Limit States
  • Steel vs. Concrete
  • Review Concrete Design Principles
  • Concrete Beam Performance to Ultimate
16 4/10

Concrete Bending Members Continued

Lecture 16

Chapter 2C
  • Analysis of Concrete Beams
  • Moment Capacity
  • T-Beams
  • Examples
17 4/15

Concrete Bending Members Continued

Lecture 17
Chapter 3C
  • Design of Concrete Beams
  • Balanced Condition
  • Under/over-reinforced
  • Selecting steel
  • Examples
18 4/17

Concrete Bending Members Continued

Lecture 18

Chapter 7C
  • Design of Concrete Beams
  • Beams with +/- Moments
  • Examples
19 4/22

Concrete Bending Members Continued

Lecture 19

Chapter 7C
  • Design of Concrete Beams
  • Shear Capacity
  • Concrete Capacity
  • Stirrup Capacity
  • Stirrup Spacing/Limits
20 4/24

Concrete Bending Members Continued

Lecture 20

Chapter 7C
  • Design of Concrete Beams
  • Shear Envelopes
  • Stirrup Spacings
  • Examples
21 4/29

Steel Bending Members Continued

Lecture 21

Chapters 8-9S
  • Design of Steel Beams
  • Yield Moment
  • Plastic Moment
  • Buckling (Local/Global)
22 5/1

Steel Bending Members Continued

Lecture 22

Tables
Chapters 8-9S
  • Design of Steel Beams
23 5/6

Steel Bending Members Continued

Lecture 23

Chapters 8-9S
  • Design of Steel Beams
24 5/8

Steel Bending Members Continued

Lecture 24

Chapter 10S
  • Design of Steel Beams
25 5/8

Steel Bending Members Continued

Lecture 25

 
26 5/13

Interaction Equations

Lecture 26

  • Beam-Columns
27 5/15

Course Review

Lecture 27

28 5/20 Course Review    
*29* TBA
FINAL EXAM
TBA
 Good Luck!!!