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
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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
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.
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.
Expert Solution
Step 1: Write the given data.

table row blank blank cell Dimensions space of space cylindrical space rod space without space load comma end cell row straight L equals cell 100 space mm end cell row straight d equals cell 10 space mm end cell row cell Applied space compressive space load comma space straight P end cell equals cell negative 100 space kN comma space negative space due space to space compression end cell row blank blank cell Material colon space Aluminum space Bronze comma space 9 percent sign space copper space alloy end cell end table

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