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
2. 8630 low-alloy steel
3. a. 304 stainless steel
b. 410 stainless steel
4. L2 tool steel
5. Ferrous superalloy (410)
6. a. Ductile iron, quench
b. Ductile iron, 60-40-18
7. a. 3003-H14 aluminum
b. 2048, plate aluminum
8. a. AZ31B magnesium
b. AM100A casting magnesium
9. a. Ti-5Al-2.5Sn
b. Ti-6Al-4V
10. Aluminum bronze, 9%
(copper alloy)
11. Monel 400 (nickel alloy)
12. AC41A zinc
13. 50:50 solder (lead alloy)
14. Nb-1 Zr (refractory metal)
15. Dental gold alloy (precious
metal)
9.
Alloy
1. 1040 carbon steel
2. 8630 carbon steel
3.
6.
7.
8.
E
[GPa (psi)]
200 (29 × 106)
X
a. 304 stainless steel
b. Ductile iron, 60-40-18
a. 3003-H14 aluminum
a. AZ31B magnesium
b. AM100A casting magnesium
a. Ti-5Al-2.5Sn
b. Ti-6Al-4V
193 (28 x 106)
200 (29 × 106)
200 (29 × 106)
165 (24 × 106)
169 (24.5 x 10°)
70 (10.2 x 10°)
70.3 (10.2 x 106)
45 (6.5 x 106)
45 (6.5 × 106)
107-110 (15.5-16 × 10°)
110 (16 × 106)
110 (16.1 x 106)
179 (26 × 106)
68.9 (10 × 106)
TABLE 6.3
Poisson's Ratio and Shear Modulus for the Alloys of Table 6.1
G (GPa)
10. Aluminum bronze, 9% (copper alloy)
11. Monel 400 (nickel alloy)
V
0.30
0.30
0.29
0.29
0.33
0.35
0.35
0.35
0.33
0.33
0.32
Y.S.
[MPa (ksi)]
25
17
600 (87)
680 (99)
205 (30)
48
41
44
700 (102)
1,380 (200)
700 (102)
580 (84)
329 (48)
145 (21)
416 (60)
220 (32)
83 (12)
827 (120)
825 (120)
320 (46.4)
283 (41)
33 (4.8)
138 (20)
*Alloy designations and associated properties cited in this table and Tables 6.3 and 6.10 are from Metals Handbook, 8th ed., Vol. 1, and
9th ed., Vols. 1-3, American Society for Metals, Metals Park, OH, 1961, 1978, 1979, and 1980.
G/E
0.36
0.38
T.S.
[MPa (ksi)]
0.44
0.38
0.40
750 (109)
800 (116)
515 (75)
800 (116)
1,550 (225)
800 (116)
(108)
750
461 (67)
150 (22)
457 (66)
290 (42)
150 (22)
862 (125)
895 (130)
652 (94.5)
579 (84)
328 (47.6)
42 (6.0)
241 (35)
310-380
(45-55)
Percent
elongation
at failure
17
22
40
22
12
22
9.4
15
8-16
8
15
2
15
10
34
39.5
7
60
20
20-35](/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
2. 8630 low-alloy steel
3. a. 304 stainless steel
b. 410 stainless steel
4. L2 tool steel
5. Ferrous superalloy (410)
6. a. Ductile iron, quench
b. Ductile iron, 60-40-18
7. a. 3003-H14 aluminum
b. 2048, plate aluminum
8. a. AZ31B magnesium
b. AM100A casting magnesium
9. a. Ti-5Al-2.5Sn
b. Ti-6Al-4V
10. Aluminum bronze, 9%
(copper alloy)
11. Monel 400 (nickel alloy)
12. AC41A zinc
13. 50:50 solder (lead alloy)
14. Nb-1 Zr (refractory metal)
15. Dental gold alloy (precious
metal)
9.
Alloy
1. 1040 carbon steel
2. 8630 carbon steel
3.
6.
7.
8.
E
[GPa (psi)]
200 (29 × 106)
X
a. 304 stainless steel
b. Ductile iron, 60-40-18
a. 3003-H14 aluminum
a. AZ31B magnesium
b. AM100A casting magnesium
a. Ti-5Al-2.5Sn
b. Ti-6Al-4V
193 (28 x 106)
200 (29 × 106)
200 (29 × 106)
165 (24 × 106)
169 (24.5 x 10°)
70 (10.2 x 10°)
70.3 (10.2 x 106)
45 (6.5 x 106)
45 (6.5 × 106)
107-110 (15.5-16 × 10°)
110 (16 × 106)
110 (16.1 x 106)
179 (26 × 106)
68.9 (10 × 106)
TABLE 6.3
Poisson's Ratio and Shear Modulus for the Alloys of Table 6.1
G (GPa)
10. Aluminum bronze, 9% (copper alloy)
11. Monel 400 (nickel alloy)
V
0.30
0.30
0.29
0.29
0.33
0.35
0.35
0.35
0.33
0.33
0.32
Y.S.
[MPa (ksi)]
25
17
600 (87)
680 (99)
205 (30)
48
41
44
700 (102)
1,380 (200)
700 (102)
580 (84)
329 (48)
145 (21)
416 (60)
220 (32)
83 (12)
827 (120)
825 (120)
320 (46.4)
283 (41)
33 (4.8)
138 (20)
*Alloy designations and associated properties cited in this table and Tables 6.3 and 6.10 are from Metals Handbook, 8th ed., Vol. 1, and
9th ed., Vols. 1-3, American Society for Metals, Metals Park, OH, 1961, 1978, 1979, and 1980.
G/E
0.36
0.38
T.S.
[MPa (ksi)]
0.44
0.38
0.40
750 (109)
800 (116)
515 (75)
800 (116)
1,550 (225)
800 (116)
(108)
750
461 (67)
150 (22)
457 (66)
290 (42)
150 (22)
862 (125)
895 (130)
652 (94.5)
579 (84)
328 (47.6)
42 (6.0)
241 (35)
310-380
(45-55)
Percent
elongation
at failure
17
22
40
22
12
22
9.4
15
8-16
8
15
2
15
10
34
39.5
7
60
20
20-35
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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