The axially loaded bar is induced and supported as shown in Figure 1.0 below. The bar is made of aluminum 2014-T4 and ha
Posted: Fri May 27, 2022 6:39 am
The axially loaded bar is induced and supported as shown in
Figure 1.0 below. The bar is made of aluminum 2014-T4 and has a
modulus of elasticity, E = 73.1 Gpa. The length of segment AB,
BC and BD and the induced load are shown in Table 1.0.
Determine the displacement of the end A of the bar.
A1= 30
A2=30
A3=15
A4=15
A5=10
X=3
Y=1.5
Z=3.0
16.5mm A KXm- B * A1 KN 12.5mm A2 kN Y m- C A3 kN 8.5mm A4 KN Z m- D → A5 KN
Figure 1.0 below. The bar is made of aluminum 2014-T4 and has a
modulus of elasticity, E = 73.1 Gpa. The length of segment AB,
BC and BD and the induced load are shown in Table 1.0.
Determine the displacement of the end A of the bar.
A1= 30
A2=30
A3=15
A4=15
A5=10
X=3
Y=1.5
Z=3.0
- The Axially Loaded Bar Is Induced And Supported As Shown In Figure 1 0 Below The Bar Is Made Of Aluminum 2014 T4 And Ha 1 (15.92 KiB) Viewed 12 times