Without an applied load, an aluminum bronze, 9% (copper alloy) cylindrical rod has the following dimensions: 100-mm long and 10-mm diameter. It is exposed to a 100-kN axial compression load. Calculate the resulting dimensions of the rod under the loading condition. If needed, use the information on the following page.
Without an applied load, an aluminum bronze, 9% (copper alloy) cylindrical rod has the following dimensions: 100-mm long and 10-mm diameter. It is exposed to a 100-kN axial compression load. Calculate the resulting dimensions of the rod under the loading condition. If needed, use the information on the following page.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![**TABLE 6.1: Tensile Test Data for Some Typical Metal Alloys**
- **Alloy**
1. 1040 carbon steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 600 MPa (87 ksi)
- T.S.: 750 MPa (109 ksi)
- Percent elongation at failure: 17
2. 8630 low-alloy steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 680 MPa (99 ksi)
- T.S.: 800 MPa (116 ksi)
- Percent elongation at failure: 22
3. 304 stainless steel
- E: 193 GPa (28 × 10⁶ psi)
- Y.S.: 205 MPa (30 ksi)
- T.S.: 515 MPa (75 ksi)
- Percent elongation at failure: 40
4. 410 stainless steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 700 MPa (102 ksi)
- T.S.: 800 MPa (116 ksi)
- Percent elongation at failure: 12
5. L2 tool steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 1,380 MPa (200 ksi)
- T.S.: 1,550 MPa (225 ksi)
- Percent elongation at failure: 15
6. a. Ductile iron, quench
- E: 165 GPa (24 × 10⁶ psi)
- Y.S.: 580 MPa (84 ksi)
- T.S.: 810 MPa (105 ksi)
- Percent elongation at failure: 9.4
b. Ductile iron, 60-40-18
- E: 169 GPa (24.5 × 10⁶ psi)
- Y.S.: 329 MPa (48 ksi)
- T.S.: 461 MPa (67 ksi)
- Percent elongation at failure: 15
7. a. 3003-H14 aluminum](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F14ad990f-dd7d-47e0-a13f-1f780fa26f58%2F83a43880-d86b-4ae9-b10c-52fba94c7570%2F325ao0u_processed.jpeg&w=3840&q=75)
Transcribed Image Text:**TABLE 6.1: Tensile Test Data for Some Typical Metal Alloys**
- **Alloy**
1. 1040 carbon steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 600 MPa (87 ksi)
- T.S.: 750 MPa (109 ksi)
- Percent elongation at failure: 17
2. 8630 low-alloy steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 680 MPa (99 ksi)
- T.S.: 800 MPa (116 ksi)
- Percent elongation at failure: 22
3. 304 stainless steel
- E: 193 GPa (28 × 10⁶ psi)
- Y.S.: 205 MPa (30 ksi)
- T.S.: 515 MPa (75 ksi)
- Percent elongation at failure: 40
4. 410 stainless steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 700 MPa (102 ksi)
- T.S.: 800 MPa (116 ksi)
- Percent elongation at failure: 12
5. L2 tool steel
- E: 200 GPa (29 × 10⁶ psi)
- Y.S.: 1,380 MPa (200 ksi)
- T.S.: 1,550 MPa (225 ksi)
- Percent elongation at failure: 15
6. a. Ductile iron, quench
- E: 165 GPa (24 × 10⁶ psi)
- Y.S.: 580 MPa (84 ksi)
- T.S.: 810 MPa (105 ksi)
- Percent elongation at failure: 9.4
b. Ductile iron, 60-40-18
- E: 169 GPa (24.5 × 10⁶ psi)
- Y.S.: 329 MPa (48 ksi)
- T.S.: 461 MPa (67 ksi)
- Percent elongation at failure: 15
7. a. 3003-H14 aluminum
![Without an applied load, an aluminum bronze, 9% (copper alloy) cylindrical rod has the following dimensions: 100-mm long and 10-mm diameter. It is exposed to a 100-kN axial compression load. Calculate the resulting dimensions of the rod under the loading condition. If needed, use the information on the following page.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F14ad990f-dd7d-47e0-a13f-1f780fa26f58%2F83a43880-d86b-4ae9-b10c-52fba94c7570%2Fcyqlj57_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Without an applied load, an aluminum bronze, 9% (copper alloy) cylindrical rod has the following dimensions: 100-mm long and 10-mm diameter. It is exposed to a 100-kN axial compression load. Calculate the resulting dimensions of the rod under the loading condition. If needed, use the information on the following page.
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