The following data were collected from a 10.16 mm-diameter test specimen of polyvinyl chloride (e, - 50.8 mm): Load (AN) AE (mm) Stress (MPa) Strain (mm/mm) O 0.0000 O 0.0 1.334 0.1895 16.45492 0.00373 2.668 0.38 32.90983 0.00748 4.003 0.603 49.37708 0.01187 5.34 0.813 6.67 1.168 7.38 1.778 (maximum load) 65.869 0.016 82.27458 0.023 91.03244 0.035 7.12 2.388 87.82534 0.047 6.316 3.048 (fracture) 77.90798 0.06 After fracture, the total length was 53.086 mm and the diameter was 9.982 mm. Plot the engineering stress strain curve and calculate (a) the 0.2% offset yield strength; (b) the tensile strength; (c) the modulus of elasticity: (d) the % elongation; (e) the % reduction in area; () the engineering stress at fracture

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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The following data were collected from a 10.16 mm-diameter test specimen of polyvinyl
chloride (e, = 50.8 mm):
Load (kN) AE (mm)
Stress (MPa) Strain (mm/mm)
O 0.0
O 0.00000
1.334 0.1895
16.45492 0.00373
32.90983 0.00748
2.668 0.38
4.003 0.603
49.37708 0.01187
5.34 0.813
65.869 0.016
6.67 1.168
82.27458 0.023
7.38 1.778 (maximum load)
91.03244 0.035
7.12 2.388
87.82534 0.047
6.316 3.048 (fracture)
77.90798 0.06
After fracture, the total length was 53.086 mm and the diameter was 9.982 mm. Plot
the engineering stress strain curve and calculate (a) the 0.2% offset yield strength; (b)
the tensile strength; (c) the modulus of elasticity: (d) the % elongation; (e) the %
reduction in area; () the engineering stress at fracture
Transcribed Image Text:The following data were collected from a 10.16 mm-diameter test specimen of polyvinyl chloride (e, = 50.8 mm): Load (kN) AE (mm) Stress (MPa) Strain (mm/mm) O 0.0 O 0.00000 1.334 0.1895 16.45492 0.00373 32.90983 0.00748 2.668 0.38 4.003 0.603 49.37708 0.01187 5.34 0.813 65.869 0.016 6.67 1.168 82.27458 0.023 7.38 1.778 (maximum load) 91.03244 0.035 7.12 2.388 87.82534 0.047 6.316 3.048 (fracture) 77.90798 0.06 After fracture, the total length was 53.086 mm and the diameter was 9.982 mm. Plot the engineering stress strain curve and calculate (a) the 0.2% offset yield strength; (b) the tensile strength; (c) the modulus of elasticity: (d) the % elongation; (e) the % reduction in area; () the engineering stress at fracture
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