Pin Bar System Part 3-Basic Unified Engineering-Assignment, Exercises of Engineering

Prof. Uddhar Negi gave this assignment for Advanced Unified Engineering course at Allahabad University. It includes: Pin, Bar, System, Additional, Information, Shear, Stress, Constant, Partial, Differential

Typology: Exercises

2011/2012

Uploaded on 07/22/2012

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Unified Engineering Spring 2004
Problem M13
In problem M1 you designed a truss, however you took no account of the possibility of buckling.
Redo the question, with the same set of materials. Reexamine your design strategy (including
materials selection). Assume that all the materials are available in the form of bars with a solid
circular cross-section.
Problem M1
This is question is designed to provide you with a chance to revise material we met last term,
and an opportunity to start thinking about structural design. You are asked to design
a minimum mass truss structure that will be attached at points A, and B, 1 m apart on
a horizontal floor in order to support a vertical load of 10 kN, without exceeding the
strength (assume that the tensile and compressive strengths are the same) of the bars,
at a distance 2 m above the floor and 1m to the right of the right hand support point
(B).. The truss will be made of constant cross-section members of whatever material
you choose to select. All of the bars will have the same cross-section. The following
materials are available for selection. Select a material, and then choose an
appropriate truss configuration and then estimate the mass of the truss, such that it
will meet the design requirement. Explain your thought processes at each step.
Material
Density,
r,
Modulus, E,
CTE,
a,
Price , p,
Tensile Strength,
(Mg/m3) (GPa) x 10-6 K-1 ($/Mg) sf, (MPa)
Mild Steel
7.9
203
12
300
220
Aluminum alloy (2000 series)
2.8
71
24
1500
350
Titanium alloy Ti-6Al4V
4.5
120
9.0
8000
850
Carbon fiber composite*
1.5
70
3.0
100000
700
Wood (e.g spruce)*
0.6
12
4.0
300
30
Silicon Carbide (SiC)
3.0
410
4.0
50000
300
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Unified Engineering Spring 2004

Problem M

In problem M1 you designed a truss, however you took no account of the possibility of buckling.

Redo the question, with the same set of materials. Reexamine your design strategy (including

materials selection). Assume that all the materials are available in the form of bars with a solid

circular cross-section.

Problem M

This is question is designed to provide you with a chance to revise material we met last term,

and an opportunity to start thinking about structural design. You are asked to design

a minimum mass truss structure that will be attached at points A, and B, 1 m apart on

a horizontal floor in order to support a vertical load of 10 kN, without exceeding the

strength (assume that the tensile and compressive strengths are the same) of the bars,

at a distance 2 m above the floor and 1m to the right of the right hand support point

(B).. The truss will be made of constant cross-section members of whatever material

you choose to select. All of the bars will have the same cross-section. The following

materials are available for selection. Select a material, and then choose an

appropriate truss configuration and then estimate the mass of the truss, such that it

will meet the design requirement. Explain your thought processes at each step.

Material Density, r , Modulus, E, CTE, a , Price , p, Tensile Strength,

(Mg/m

) (GPa) x 10

  • K - ($/Mg) s f ,^ (MPa)

Mild Steel 7.9 203 12 300 220

Aluminum alloy (2000 series) 2.8 71 24 1500 350

Titanium alloy Ti-6Al4V 4.5 120 9.0 8000 850

Carbon fiber composite* 1.5 70 3.0 100000 700

Wood (e.g spruce)* 0.6 12 4.0 300 30

Silicon Carbide (SiC) 3.0 410 4.0 50000 300

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Note. Although the design objective is to minimize the mass of the structure, the credit for the

question will be based on demonstrating a logical approach to selecting a material and a truss

configuration, and then obtaining an estimate for the mass of the truss. Do not spend more than

an hour on this question, and do not analyze multiple truss configurations. A useful exercise is

to estimate what you think the mass of the truss will be before you do any analysis - developing

an intuition for the correct size for structures is a useful skill to cultivate.

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