Objective:
This is an experiment on the 2024- T3 Aluminum structure in cantilever configuration.
By using the machine to measure three micro strain at different locations. There are three strain
gages, one is in 45 degree and the other two are on the X ax
Lab #3
Combined Bending and Torsion of Cantilever Beams
Name: Run Si
Date of the experiment: 10/26/2016
Due date: 11/16/ 2016
MEE 322 8:35 AM team A
Objective:
This is an experiment on the 2024- T3 Aluminum structure in cantilever configuration. By using
Discussion 2:
Personally speaking, I think that Paul McCartney has the most influence of the former Beatles
since the band is no longer exist. Just simply look at his record, it is not hard to understand my point.
Ge not only shined with the Beatles, afte
Lab 4: Stress Concentration of Flat Plates
_
Lab number: _
Date of Experiment: 4/1/2016
Due date: 4/15/2016
Objectives
Perform tensile tests on multiple polycarbonate flat plates with circular holes of various diameters and measure strain
fields both arou
Lab 5: Free and Forced Vibrations due to Rotating Unbalance
_
Lab number: _
Date of Experiment: 3/18/2016
Due date: 5/1/2016
Objectives
Determine the equivalent stiffness of a beam used as a spring during vibrational analysis and compare it to the
theoret
Lab 3: Material Characterization: Elasticity, Plasticity and Fracture
_
Lab number: _
Date of Experiment: 3/18/2016
Due date: 4/3/2016
Objectives
Perform tensile test on 1018 carbon steel and 2024 aluminum samples in order to measure the mechanical proper
Lab 2: Combined Bending and Torsion of Cantilever Beams
_
Lab number: _
Date of Experiment: 2/5/2016
Due date: 2/24/2016
Objectives
Perform simultaneous bending and torsion loading on a 2024-T3 Aluminum hollow tube cantilever structure fitted with a
strai
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 3
Due: September 8th, 2016, Thursday before class
Problem 1: (5 points) The shaft is supported at its ends by two bearings A and B and is subjected
to the forces applied to the pull
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 1
Due: August 25th, 2016, Thursday before class
Problem 1: (5 points) Determine the resultant internal loadings acting on the cross
sections located through points D and E of the fr
MEE 322: STRUCTURAL MECHANICS
Fall 2016
by Hanqing Jiang
Lectures: T Th 1:30-2:45 SCOB 210
Labs:
Lab group A:
M 82709
T 76737
W 76251
F 76255
F 76253
7:30-8:25
3:00-3:55
2:00-2:55
7:30-8:25
11:50-12:45
USE 170B
USE 170B
USE 170B
USE 170B
USE 170B
Lab grou
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 4
Due: September 15th, 2016, Thursday before class
Problem 1: (5 points) Determine the maximum magnitude of the bending moment M that can be
applied to the beam so that the bending
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 2
Due: September 1st, 2016, Thursday before class
Problem 1: (10 points) A solid rod with radius of d = 90 mm is supported by smooth
journal bearings at A and B that only exert vert
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 5
Due: October 6th, 2016, Thursday before class
Problem 1: (10 points) The bar has a diameter of 40 mm. If it is subjected to the two force
components at its end as shown, determine
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 7
Due: October 27th, 2016, Thursday before class
Problem 1: (10 points) The state of stress at a point in a body relative to the xyz coordinate
system is given by
2 3 5
3 6 2 MPa
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 8
Due: November 3rd, 2016, Thursday before class
Problem 1: (10 points) The 60o strain rosette is mounted around a point on a beam. The
following readings are obtained from each gau
MEE 322 Structure Mechanics
Fall 2016, Instructor: Hanqing Jiang
Homework 6
Due: October 13th, 2016, Thursday before class
Problem 1: (10 points) The state of stress at a point in a body relative to the xyz coordinate
system is given by
10 5 30
[ ]= 5 0
MEE 342
Dr. Masoud Yekani Fard
HW 1, Due 07/13/2015
1. (50 points) Time, deformation, and load of two experiments (samples 1 & 4) are given in the
attached excel files (excel output files are available in the blackboard). Information of the
samples are as