The following data is gathered from a tensile test of a material. Using this data, find...
The following data is gathered from a tensile test of a material. Using this data, find the Modulus of Elasticity for this material. (Assume it has already been processed)
| Stress kPa | Strain (%) |
| 140 | 0.2% |
| 350 | 0.5% |
| 490 | 0.7% |
| 700 | 1.0% |
| 105 | 0.15% |
Provide your answer in MPa
Homework Answers
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The following data is gathered from a tensile test of a
material. Using this data, find...
Given the following data from a tensile test. Show your calculations for the following: Tensile Stress...
Given the following data from a tensile test. Show your
calculations for the following:
Tensile Stress
Modulus of Elasticity (Young’s Modulus)
Yield Strength
Percentage of elongation
Percentage of reduction in area
The following data were collected from a 12-mm-diameter test specimen of magnesium (l. = 30.00 mm): 250 Vielding 0.2% offset Load (N) 0 5,000 10,000 15,000 20,000 25,000 26,500 27,000 26,500 25,000 Gage Length (mm) 0.0000 0.0296 0.0592 0.0888 0.15 0.51 0.90 1.50 (maximum load) 2.10 Stress (MPa) oro...
Table 6.3 Tensile stress-strain Data for several Hypothetical Metals to Be used with Concept Checks 6.2...
Table 6.3 Tensile stress-strain Data for several Hypothetical Metals to Be used with Concept Checks 6.2 and 6.4 Strain Fracture Elastic Yield Tensile Strength Modulus (GPa) Material Strength (MPa) Strength (MPa) at Fracture (MPa) 265 0.23 340 310 0.40 120 100 500 0.15 550 415 720 0.14 850 700 650 Fractures before yielding
(30 points) From the stress-strain chart for a unknown material determine thoe following 400 a) The...
(30 points) From the stress-strain chart for a unknown material determine thoe following 400 a) The modulus of elasticity b) The yield strength at a strain offset of 0.002 c) Tensile strength d) The Ductility (percentage of 300 200 elongation, %EL) e) The Modulus of resilience f) Strain at 350 Mpa stress g) Strain at 150 Mpa stress 200 100 100 0.005 0.30 0.40 0.10 trein 0.20
use matlab to plot 2-8 The stress-strain data from a tensile test on a cast-iron specimen are Engineering stress, kp...
use matlab to plot
2-8 The stress-strain data from a tensile test on a cast-iron specimen are Engineering stress, kpsi 5 10 16 19 54 26 32 40 46 49 Engineering strain. | 103in/in 0.20 0.44 0.80 1.0 1.5 5.0 2,0 2,8 3.4 4.0 Plot the stress-strain locus and find the 0.1 percent offset yield strength, and the tangent modulus of elasticity at zero stress and at 20 kpsi
2-8 The stress-strain data from a tensile test on a cast-iron...
1.6 points) A tensile test specimen having a diameter of 10 mm and a gange length...
1.6 points) A tensile test specimen having a diameter of 10 mm and a gange length of 50 mm wa. tested to fracture. The stress-strain curve from the tension test is shown below. Labeling your points and showing the necessary steps, along with the corresponding calculations, find the following magnitudes: (a) Modulus of Elasticity, E = (b) Ultimate Strength = (e) Yield stress (0.2% offset method), (d) If the shear modulus of elasticity of the material is 28 GPa, determine...
1 Figure 2. The specimen was loaded to 7 You have been provided the tensile test...
1 Figure 2. The specimen was loaded to 7 You have been provided the tensile test results shown in Figure 2. The specimen fracture. Using these results, determine the following: Young's Modulus (3 points). The Yield Stress at 0.2% offset (3 points). The Ultimate Tensile Stress (1 point). The percent elongation at failure (1 point). • The toughness of the material (2 points). --- - -- Stress (o) (MPa) 0.04 0.035 0 0.045 0 0.005 0.01 0.015 0.02 0.025 0.03...
Please provide me clear handwriting Table 1: TENSILE TEST RESULTS OF A METAL SAMPLE with d...
Please provide me clear handwriting
Table 1: TENSILE TEST RESULTS OF A METAL SAMPLE with d = 7.42, lo = 40mm (4 marks) Load, KN Extension, mm Stress, MPa Strain 0 0 10 0.05 17 0.08 25 0.11 30 0.14 34 0.20 37.5 0.40 38.5 0.60 36 0.90 Cross-sectional Area (A) Modulus of Elasticity (E) Tensile Strength (ST) Percent Elongation (%EL) A = T d2 4 E = Sy Ey ST = PU A %EL = Extension at fracture Gauge...
Assignment 01 TOT Mechanical Properties of Materials 1. A tensile test specimen has a gage length...
Assignment 01 TOT Mechanical Properties of Materials 1. A tensile test specimen has a gage length = 50 mm and its cross-sectional area = 100 mm. The specimen yields at 48,000 N, and the corresponding gage length - 50.23 mm. This is the 0.2 ent yield point. The maximum load of 87,000 N is reached at a gage length 64.2 mm. Determine (a) yield strength, (b) modulus of elasticity, and (c) tensile strength. (d) If fracture occurs at a gage...
Question 1 (see points below): An engineer was testing a new material in tension and created...
Question 1 (see points below): An engineer was testing a new material in tension and created the following stress/strain graph. She determined from another study that nu (v) = 0.3 for this material. Note: strain is in percentage. (MPa) 550 412.5 275 137.5 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 € (%) For from this information: 1a: (2 pt) Determine the stress at 0.05% strain using the offset method: 1b: (2 pt) Determine the modulus of elasticity:...
Stress (MPa) Strain (mm/mm) 0 Q-1 (30 pts) Data taken from a stress-strain test for a...
Stress (MPa) Strain (mm/mm) 0 Q-1 (30 pts) Data taken from a stress-strain test for a ceramic are given in the table. The curve is linear between the origin and the first point. Plot the diagram, and determine: a. Modulus of elasticity b. Modulus of resilience (ur) c. Modulus of toughness(u) 226 309 337 350(fracture) 0.0006 0.0010 0.0014 0.0018
Given the following data from a tensile test. Show your
calculations for the following:
Tensile Stress
Modulus of Elasticity (Young’s Modulus)
Yield Strength
Percentage of elongation
Percentage of reduction in area
The following data were collected from a 12-mm-diameter test specimen of magnesium (l. = 30.00 mm): 250 Vielding 0.2% offset Load (N) 0 5,000 10,000 15,000 20,000 25,000 26,500 27,000 26,500 25,000 Gage Length (mm) 0.0000 0.0296 0.0592 0.0888 0.15 0.51 0.90 1.50 (maximum load) 2.10 Stress (MPa) oro...
Table 6.3 Tensile stress-strain Data for several Hypothetical Metals to Be used with Concept Checks 6.2 and 6.4 Strain Fracture Elastic Yield Tensile Strength Modulus (GPa) Material Strength (MPa) Strength (MPa) at Fracture (MPa) 265 0.23 340 310 0.40 120 100 500 0.15 550 415 720 0.14 850 700 650 Fractures before yielding
(30 points) From the stress-strain chart for a unknown material determine thoe following 400 a) The modulus of elasticity b) The yield strength at a strain offset of 0.002 c) Tensile strength d) The Ductility (percentage of 300 200 elongation, %EL) e) The Modulus of resilience f) Strain at 350 Mpa stress g) Strain at 150 Mpa stress 200 100 100 0.005 0.30 0.40 0.10 trein 0.20
use matlab to plot
2-8 The stress-strain data from a tensile test on a cast-iron specimen are Engineering stress, kpsi 5 10 16 19 54 26 32 40 46 49 Engineering strain. | 103in/in 0.20 0.44 0.80 1.0 1.5 5.0 2,0 2,8 3.4 4.0 Plot the stress-strain locus and find the 0.1 percent offset yield strength, and the tangent modulus of elasticity at zero stress and at 20 kpsi
2-8 The stress-strain data from a tensile test on a cast-iron...
1.6 points) A tensile test specimen having a diameter of 10 mm and a gange length of 50 mm wa. tested to fracture. The stress-strain curve from the tension test is shown below. Labeling your points and showing the necessary steps, along with the corresponding calculations, find the following magnitudes: (a) Modulus of Elasticity, E = (b) Ultimate Strength = (e) Yield stress (0.2% offset method), (d) If the shear modulus of elasticity of the material is 28 GPa, determine...
1 Figure 2. The specimen was loaded to 7 You have been provided the tensile test results shown in Figure 2. The specimen fracture. Using these results, determine the following: Young's Modulus (3 points). The Yield Stress at 0.2% offset (3 points). The Ultimate Tensile Stress (1 point). The percent elongation at failure (1 point). • The toughness of the material (2 points). --- - -- Stress (o) (MPa) 0.04 0.035 0 0.045 0 0.005 0.01 0.015 0.02 0.025 0.03...
Please provide me clear handwriting
Table 1: TENSILE TEST RESULTS OF A METAL SAMPLE with d = 7.42, lo = 40mm (4 marks) Load, KN Extension, mm Stress, MPa Strain 0 0 10 0.05 17 0.08 25 0.11 30 0.14 34 0.20 37.5 0.40 38.5 0.60 36 0.90 Cross-sectional Area (A) Modulus of Elasticity (E) Tensile Strength (ST) Percent Elongation (%EL) A = T d2 4 E = Sy Ey ST = PU A %EL = Extension at fracture Gauge...
Assignment 01 TOT Mechanical Properties of Materials 1. A tensile test specimen has a gage length = 50 mm and its cross-sectional area = 100 mm. The specimen yields at 48,000 N, and the corresponding gage length - 50.23 mm. This is the 0.2 ent yield point. The maximum load of 87,000 N is reached at a gage length 64.2 mm. Determine (a) yield strength, (b) modulus of elasticity, and (c) tensile strength. (d) If fracture occurs at a gage...
Question 1 (see points below): An engineer was testing a new material in tension and created the following stress/strain graph. She determined from another study that nu (v) = 0.3 for this material. Note: strain is in percentage. (MPa) 550 412.5 275 137.5 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 € (%) For from this information: 1a: (2 pt) Determine the stress at 0.05% strain using the offset method: 1b: (2 pt) Determine the modulus of elasticity:...
Stress (MPa) Strain (mm/mm) 0 Q-1 (30 pts) Data taken from a stress-strain test for a ceramic are given in the table. The curve is linear between the origin and the first point. Plot the diagram, and determine: a. Modulus of elasticity b. Modulus of resilience (ur) c. Modulus of toughness(u) 226 309 337 350(fracture) 0.0006 0.0010 0.0014 0.0018
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