1000 h MPaData from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p391, 1993... Shackelford & Alexander1000 h MPa Data from ASM M
Trang 210-h rupture (ksi)
Niobium and Niobium Alloys Pure Niobium — All Recrystallized 2000 5.4
Nb–1Zr 1 Zr All Recrystallized 2000 14SCb291 10 Ta, 10 W Bar, Sheet Recrystallized 2000 9C129 10 W, 10 Hf, 0.1 Y Sheet Recrystallized 2400 15FS85 28 Ta, 11 W, 0.8 Zr Sheet Recrystallized 2400 12SU31 17 W, 3.5 Hf, 0.12 C, 0.03 Si Bar, Sheet Special Thermal Processing 2400 22Molybdenum and
Molybdenum Alloys Pure Molybdenum — All Stress-relieved Annealed 1800 25
Low C Mo None All Stress-relieved Annealed 1800 24TZM 0.5 Ti, 0.08 Zr, 0.015 C All Stress-relieved Annealed 2400 23TZC 1.0 Ti, 0.14 Zr, 0.02 to 0.08 C All Stress-relieved Annealed 2400 28Mo–5Re 5 Re All Stress-relieved Annealed 3000 1Mo–30W 30 W All Stress-relieved Annealed 2000 20
8.25 Mechanical L Page 816 Wednesday, December 31, 1969 17:00
Trang 3
Tantalum Alloys Unalloyed None All Recrystallized 2400 2.5
TA–10W 10 W All Recrystallized 2400 20Tungsten Alloys Unalloyed None Bar, Sheet, Wire Stress-relieved Annealed 3000 6.8
W–2 ThO2 2 ThO2 Bar, Sheet, Wire Stress-relieved Annealed 3000 18W–3 ThO2 3 ThO2 Bar, Wire Stress-relieved Annealed 3000 18W–4 ThO2 4 ThO2 Bar Stress-relieved Annealed 3000 18W–15 Mo 15 Mo Bar, Wire Stress-relieved Annealed 3000 12W–50 Mo 50 Mo Bar, Wire Stress-relieved Annealed 3000 12W–25 Re 25 Re Bar, Sheet, Wire Stress-relieved Annealed 3000 10
(SHEET 2 OF 2)
Class Alloy Alloying Additions (%) Form Condition
Temperature (°F)
10-h rupture (ksi)
To convert (ksi) to (MPa), multiply by 6.89
Data from ASM Engineering Materials Reference Book, Second Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p106, (1994).
8.25 Mechanical L Page 817 Wednesday, December 31, 1969 17:00
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Trang 41000 h (MPa)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p391, (1993)
8.26 Mechanical Page 818 Wednesday, December 31, 1969 17:00
Trang 5Shackelford & Alexander
1000 h (MPa)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p391, (1993)
8.26 Mechanical Page 819 Wednesday, December 31, 1969 17:00
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Trang 6(e) Heat treat to 1150 °C plus 840 °C hold for 24h, plus 705 °C hold for 20h
(f) Solution treated and aged
(g) Stress-relieved forging
(h) Heat treat to 1050 °C hold for 1 h
(j) Heat treat to 1080 °C hold for 8 h, plus 700 °C hold for 16 h
(k) Heat treat to 1150 °C hold for 4 h, plus 1050 °C hold for 16 h, plus 850 °C hold for 16 h
(m) Heat treat to 1190 °C hold for 1.5 h, plus 1100 °C hold for 6 h
(n) Heat treat to 1150 °C hold for 2 h, water quench, plus 800 °C hold for 8 h
1000 h (MPa)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p391, (1993)
8.26 Mechanical Page 820 Wednesday, December 31, 1969 17:00
Trang 7Shackelford & Alexander
Modulus of Rupture (MPa)
Al2O3 TiC 72.2 ± 13.0 69.4 ± 4.3 57.0 ± 4.1
Containing 30 Vol % of Metal Carbide Dispersoid (2 µm average particle diameter)
Data from ASM Engineering Materials Reference Book, Second Edition, Michael Bauccio,
Ed., ASM International, Materials Park, OH, p169,(1994)
8.26 Mechanical Page 821 Wednesday, December 31, 1969 17:00
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Trang 8Mechanical Properties
W ROUGHT T ITANIUM A LLOYS
Class Metal or Alloy Poisson's Ratio
Commercially Pure 99.5 Ti 0.34
99.2 Ti 0.3499.1 Ti 0.34
99.2 Ti–0.2Pd 0.34Near Alpha Alloys Ti-8Al-1Mo-1V 0.32
Ti-5Al-5Sn-2Zr-2Mo-0.25Si 0.326Alpha-Beta Alloys Ti-6Al-4V 0.342
Ti-6Al-4V (low O2) 0.342Ti-6Al-2Sn-2Zr-2Mo-2Cr-0.25Si 0.327Beta Alloys Ti-13V-11Cr-3Al 0.304
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p511, (1993)
8.26 Mechanical Page 822 Wednesday, December 31, 1969 17:00
Trang 9Shackelford & Alexander
Mechanical Properties
823
(SHEET 1 OF 2)
Borides Titanium Diboride (TiB2) 0.09-0.28
(6.0 µ m grain size, ρ =4.46g/cm3) 0.10
(3.5 µ m grain size, ρ =4.37g/cm3, 0.8wt% Ni) 0.12
(6.0 µ m grain size, ρ =4.56g/cm3, 0.16wt% Ni) 0.11
(12.0 µ m grain size, ρ =4.66g/cm3, 9.6wt% Ni) 0.15
Zirconium Diboride (ZrB2) 0.144
Carbides Boron Carbide (B4C) 0.207
Hafnium Monocarbide (HfC) 0.166Silicon Carbide (SiC)
(ρ = 3.128 g/cm3) 0.183-0.192 at room temp.
Tantalum Monocarbide (TaC) 0.1719 -0.24Titanium Monocarbide (TiC) 0.187-189Tungsten Monocarbide (WC) 0.24Zirconium Monocarbide (ZrC)
(ρ = 6.118 g/cm3) 0.257
Nitrides Trisilicon tetranitride (Si3N4) 0.24
(presureless sintered) 0.22-0.27Oxides Aluminum Oxide (Al2O3) 0.21-0.27
Beryllium Oxide (BeO) 0.26-0.34Cerium Dioxide (CeO2) 0.27-0.31
Magnesium Oxide (MgO)(ρ = 3.506 g/cm3) 0.163 at room temp.
Thorium Dioxide (ThO2)
(ρ =9.722 g/cm3) 0.275
Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum Press,
New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association with
Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and Ceramic
Source, American Ceramic Society (1986-1991)
8.26 Mechanical Page 823 Wednesday, December 31, 1969 17:00
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Trang 10Mechanical Properties
Oxides (Con’t) Titanium Oxide (TiO2) 0.28
Uranium Dioxide (UO2)
(ρ =10.37 g/cm3) 0.302
Zirconium Oxide (ZrO2) 0.324-0.337 at room temp.
(partially stabilized) 0.23(fully stabilized) 0.23-0.32(plasma sprayed) 0.25Cordierite (2MgO 2Al2O3 5SiO2)
Silicide Molybdenum Disilicide (MoSi2) 0.158-0.172
(SHEET 2 OF 2)
Source: data compiled by J.S Park from No 1 Materials Index, Peter T.B Shaffer, Plenum Press, New York, (1964); Smithells Metals Reference Book, Eric A Brandes, ed., in association with Fulmer Research Institute Ltd 6th ed London, Butterworths, Boston, (1983); and Ceramic
Source, American Ceramic Society (1986-1991)
8.26 Mechanical Page 824 Wednesday, December 31, 1969 17:00
Trang 11Shackelford & Alexander
Mechanical Properties
825
(SHEET 1 OF 2)
Class Composition Poisson’s Ratio Temperature
SiO2 glass 0.166–0.177 room temp.
SiO2–Na2O glass (15% mol Na2O) 0.183 room temp
(20% mol Na2O) 0.203 room temp
(25% mol Na2O) 0.219 room temp
(30% mol Na2O) 0.236 room temp
(33% mol Na2O) 0.249 room temp
(35% mol Na2O) 0.248 room temp
SiO2–PbO glass (24.6% mol PbO) 0.249
(30.0% mol PbO) 0.174 (35.7% mol PbO) 0.252 (38.4% mol PbO) 0.150 (45.0% mol PbO) 0.219 (50.0% mol PbO) 0.259 (55.0% mol PbO) 0.222 (60.0% mol PbO) 0.281 (65.0% mol PbO) 0.283
B2O3 glass 0.288–0.309 room temp.
Source: data compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko–
Shvaikovskaya, Handbook of Glass Data, Part A and Part B, Elsevier, New York, 1983
8.26 Mechanical Page 825 Wednesday, December 31, 1969 17:00
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Trang 12S ILICON C ARBIDE SCS–2–A L
Fiber orientation No of plies Poisson's Ratio
± 45° 8, 12, 40 0.395
Data from ASM Engineering Materials Reference Book, Second Edition, Michael Bauccio,
Ed., ASM International, Materials Park, OH, p149,(1994)
(SHEET 2 OF 2)
Class Composition Poisson’s Ratio Temperature
Source: data compiled by J.S Park from O V Mazurin, M V Streltsina and T P Shvaiko–
Shvaikovskaya, Handbook of Glass Data, Part A and Part B, Elsevier, New York, 1983
8.26 Mechanical Page 826 Wednesday, December 31, 1969 17:00
Trang 13Shackelford & Alexander
Mechanical Properties
827
T REATED D UCTILE I RONS
Treatment Compression Poisson’s Ratio
Source: data from ASM Metals Reference Book, Second Edition, American Society for
Metals, Metals Park, Ohio 44073, p169-170, (1984)
T REATED D UCTILE I RONS
Treatment Torsion Poisson’s Ratio
Source: data from ASM Metals Reference Book, Second Edition, American Society for
Metals, Metals Park, Ohio 44073, p169-170, (1984)
8.26 Mechanical Page 827 Wednesday, December 31, 1969 17:00
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Trang 14Mechanical Properties
Elongation (%)
Trang 15Shackelford & Alexander
Mechanical Properties
829
Specification Number Grade or Class
Elongation (%)
ASTM A395-76ASME SA395 60-40-18 18ASTM A476-70(d);
SAE AMS5316 80-60-03 3ASTM A536-72,
MIL-1-11466B(MR) 60-40-18 18
65-45-12 1280-55-06 6100-70-03 3120-90-02 2
Source: data from ASM Metals Reference Book, Second Edition, American Society for
Metals, Metals Park, Ohio 44073, p169, (1984)
8.26 Mechanical Page 829 Wednesday, December 31, 1969 17:00
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Trang 16Mechanical Properties
Specification Number Grade or Class
Elongation (%)
FerriticASTM A47, A338; ANSI G48.1;
M4504(a) 4M5003(a) 3M5503(b) 3M7002(b) 2M8501(b) 1
(a) Air quenched and tempered(b) Liquid quenched and tempered
Source: data from ASM Metals Reference Book, Second Edition, American Society for
Metals, Metals Park, Ohio 44073, p171, (1984)
8.26 Mechanical Page 830 Wednesday, December 31, 1969 17:00
Trang 17Type 405 (UNS S40500) A580 Wire Annealed 20
A580 Annealed, Cold Finished 16Type 409 (UNS S40900) — Bar Annealed 25(a)Type 429 (UNS S42900) — Bar Annealed 30(a)Type 430 (UNS S43000) A276 Bar Annealed, Hot Finished 20
A276 Annealed, Cold Finished 16Type 430Ti(UNS S43036) — Bar Annealed 30(a)Type 434 (UNS S43400) — Wire Annealed 33(a)Type 436 (UNS S43600) — Sheet, Strip Annealed 23(a)
(a) Typical Values
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p368 (1993).
8.27 Mechanical L Page 831 Wednesday, December 31, 1969 17:00
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Trang 18
Type 442 (UNS S44200) — Bar Annealed 20(a)Type 444 (UNS S44400) A176 Plate, Sheet, Strip Annealed 20Type 446 (UNS S44600) A276 Bar Annealed, Hot Finished 20
A276 Annealed, Cold Finished 16
(SHEET 2 OF 2)
Type ASTM Specification Form Condition
Elongation (%)
(a) Typical Values
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p368 (1993).
8.27 Mechanical L Page 832 Wednesday, December 31, 1969 17:00
Trang 19Type 403 (UNS S40300) A276 Bar Annealed, hot finished 20
A276 Annealed, cold finished 16A276 Intermediate temper, hot finished 15A276 Intermediate temper, cold finished 12A276 Hard temper, hot finished 12A276 Hard temper, cold finished 12Type 410 (UNS S41000) A276 Bar Annealed, hot finished 20
A276 Annealed, cold finished 16A276 Intermediate temper, hot finished 15A276 Intermediate temper, cold finished 12A276 Hard temper, hot finished 12A276 Hard temper, cold finished 12Type 410S (UNS S41008) A176 Plate, Sheet, Strip Annealed 22Type 410Cb (UNS S41040) A276 Bar Annealed, hot finished 13
A276 Annealed, cold finished 12A276 Intermediate temper, hot finished 13A276 Intermediate temper, cold finished 12
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p369-370 (1993).
8.27 Mechanical L Page 833 Wednesday, December 31, 1969 17:00
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Trang 20
Type 414 (UNS S41400) A276 Bar Intermediate temper, hot finished 15
A276 Intermediate temper, cold finished 15
Type 420 (UNS S42000) — Bar Tempered 205 °C 8Type 422 (UNS S42200) A565 Bar for high-temperature serviceIntermediate and hard tempers 13
Type 431 (UNS S43100) — Bar Tempered 260 °C 16
(SHEET 2 OF 3)
Type ASTM Specification Form Condition
Elongation (%)
8.27 Mechanical L Page 834 Wednesday, December 31, 1969 17:00
Trang 21
Type 501 (UNS S50100) — Bar, Plate Annealed 28
Type 502 (UNS S50200) — Bar, Plate Annealed 30
(SHEET 3 OF 3)
Type ASTM Specification Form Condition
Elongation (%)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p369-370 (1993).
8.27 Mechanical L Page 835 Wednesday, December 31, 1969 17:00
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Trang 22
P RECIPITATION -H ARDENING A USTENITIC S TAINLESS S TEELS
Elongation (%)
PH 13–8 Mo (UNS S13800) Bar, Plate, Sheet, Strip H950 6-10
H1000 6-1015–5 PH (UNS S15500) and 17–4 PH (UNS S17400) Bar, Plate, Sheet, Stript H900 10(a)
H925 10(a)H1025 12(a)H1075 13(a)H1100 14(a)H1150 16(a)H1150M 18(a)
(a) For flat rolled products, value varies with thickness
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p371 (1993).
8.27 Mechanical L Page 836 Wednesday, December 31, 1969 17:00
Trang 23Elongation (%)
Type 201 (UNS S20100) A276 Bar Annealed 40Type 202 (UNS S20200) A276 Bar Annealed 40Type 205 (UNS S20500) — Plate Annealed* 58Type 304N (UNS S30451) A276 Bar Annealed 30Type 304HN (UNS S30452) — Bar Annealed 30Type 316N (UNS S31651) A276 Bar Annealed 30
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p367 (1993).
8.27 Mechanical L Page 837 Wednesday, December 31, 1969 17:00
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Trang 24Mechanical Properties
C AST A LUMINUM A LLOYS (SHEET 1 OF 3)
Alloy AA No Temper
Elongation (in 2 in.) (%)
Source: data from ASM Metals Reference Book, Second Edition, American Society for
8.28 Mechanical Page 838 Wednesday, December 31, 1969 17:00
Trang 25Shackelford & Alexander
C AST A LUMINUM A LLOYS (SHEET 2 OF 3)
Alloy AA No Temper
Elongation (in 2 in.) (%)
Source: data from ASM Metals Reference Book, Second Edition, American Society for
Metals, Metals Park, Ohio 44073, (1984)
8.28 Mechanical Page 839 Wednesday, December 31, 1969 17:00
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Trang 26C AST A LUMINUM A LLOYS (SHEET 3 OF 3)
Alloy AA No Temper
Elongation (in 2 in.) (%)
Source: data from ASM Metals Reference Book, Second Edition, American Society for
Metals, Metals Park, Ohio 44073, (1984)
8.28 Mechanical Page 840 Wednesday, December 31, 1969 17:00
Trang 27Commercial Forms(a)
Elongation
in 2 In (%)
C10100 Oxygen-free electronic 99.99 Cu F, R, W, T, P, S 55(4)C10200 Oxygen-free copper 99.95 Cu F, R, W, T, P, S 55(4)C10300 Oxygen-free extra-low phosporus 99.95 Cu, 0.003 P F, R, T, P, S 50(6)C10400, C10500, C10700 Oxygen-free, silver-bearing 99.95 Cu(e) F, R, W, S 55(4)C10800 Oxygen-free, low phosporus 99.95 Cu, 0.009 P F, R, T, P 50(4)CS11000 Electrolytic tough pitch copper 99.90 Cu, 0.04 O F, R, W, T, P, S 55(4)C11100 Electrolytic tough pitch, anneal resistant 99.90 Cu, 0.04 O, 0.01 Cd W (60)C11300, C11400, C11500, C11600 Silver-bearing tough pitch copper 99.90 Cu, 0.04 O, Ag(f) F, R, W, T, S 55(4)
C12000, C12100 99.9 Cu(g) F, T, P 55(4)C12200 Phosphorus deoxidized copper, high residual phosphorus 99.90 Cu, 0.02 P F, R, T, P 45(8)C12500, C12700, C12800, C12900, C13000 Fire-refined tough pitch with silver 99.88 Cu(h) F, R, W, S 55(4)
C14200 Phosphorus deoxidized, arsenical 99.68 Cu, 0.3 As, 0.02 P F, R, T 45(8)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 841 Wednesday, December 31, 1969 17:00
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Trang 28C14500 Phosphorus deoxidized, tellurium bearing 99.5 Cu, 0.50 Te, 0.008 P F, R, W, T 50(3)
C14700 Sulfur bearing 99.6 Cu, 0.40 S R, W 52(8)C15000 Zirconium copper 99.8 Cu, 0.15 Zr R, W 54(1.5)
C15500 99.75 Cu, 0.06 P, 0.11 Mg, Ag(i) F 40(3)C15710 99.8 Cu, 0.2 Al2O3 R, W 20(10)C15720 99.6 Cu, 0.4 Al2O3 F, R 20(3.5)C15735 99.3 Cu, 0.7 Al2O3 R 16(10)C15760 98.9 Cu, 1.1 Al2O3 F, R 20(8)C16200 Cadmium copper 99.0 Cu, 1.0 Cd F, R, W 57(1)
(SHEET 2 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
8.29 Mechanical L Page 842 Wednesday, December 31, 1969 17:00
Trang 29
C16500 98.6 Cu, 0.8 Cd, 0.6 Sn F, R, W 53(1.5)C17000 Beryllium copper 99.5 Cu, 1.7 Be, 0.20 Co F, R 45(3)C17200 Beryllium copper 99.5 Cu, 1.9 Be , 0.20 Co F, R, W, T, P, S 48(1)C17300 Beryllium copper 99.5 Cu, 1.9 Be, 0.40 Pb R 48(3)C17500 Copper-cobalt-beryllium alloy 99.5 Cu, 2.5 Co, 0.6 Be F, R 28(5)C18200, C18400, C18500 Chromium copper 99.5 Cu(j) F, W, R, S, T 40(5)
C18700 leaded copper 99.0 Cu, 1.0 Pb R 45(8)C18900 98.75 Cu, 0.75 Sn, 0.3 Si, 0.20 Mn R, W 48(14)C19000 Copper-nickel-phosphorus alloy 98.7 Cu, 1.1 Ni, 0.25 P F, R, W 50C19100 Copper-nickel-phosphorus-tellurium alloy 98.15 Cu, 1.1 Ni, 0.50 Te, 0.25 P R, F 27(6)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 843 Wednesday, December 31, 1969 17:00
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Trang 30
C19500 97.0 Cu, 1.5 Fe, 0.6 Sn, 0.10 P, 0.80 Co F 15C21000 Gilding, 95% 95.0 Cu, 5.0 Zn F, W 45(4)C22000 Commercial bronze, 90% 90.0 Cu, 10.0 Zn F, R, W, T 50(3)C22600 Jewelry bronze, 87.5% 87.5 Cu, 12.5 Zn F, W 46(3)C23000 Red brass, 85% 85.0 Cu, 15.0 Zn F, W, T, P 55(3)C24000 Low brass, 80% 80.0 Cu, 20.0 Zn F, W 55(3)C26000 Cartridge brass, 70% 70.0 Cu, 30.0 Zn F, R, W, T 66(3)C26800, C27000 Yellow brass 65.0 Cu, 35.0 Zn F, R, W 65(3)C28000 Muntz metal 60.0 Cu, 40.0 Zn F, R, T 52(10)C31400 Leaded commercial bronze 89.0 Cu, 1.75 Pb, 9.25 Zn F, R 45(10)C31600 Leaded commercial bronze, nickel-bearing 89.0 Cu, 1.9 Pb, 1.0 Ni, 8.1 Zn F, R 45(12)
C33000 Low-leaded brass tube 66.0 Cu, 0.5 Pb, 33.5 Zn T 60(7)
(SHEET 4 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 844 Wednesday, December 31, 1969 17:00
Trang 31
C33200 High-leaded brass tube 66.0 Cu, 1.6 Pb, 32.4 Zn T 50(7)C33500 Low-leaded brass 65.0 Cu, 0.5 Pb, 34.5 Zn F 65(8)C34000 Medium-leaded brass 65.0 Cu, 1.0 Pb, 34.0 Zn F, R, W, S 60(7)C34200 High-leaded brass 64.5 Cu, 2.0 Pb, 33.5 Zn F, R 52(5)C34900 62.2 Cu, 0.35 Pb, 37.45 Zn R, W 72(18)C35000 Medium-leaded brass 62.5 Cu, 1.1 Pb, 36.4 Zn F, R 66(1)C35300 High-leaded brass 62.0 Cu, 1.8 Pb, 36.2 Zn F, R 52(5)C35600 Extra-high-leaded brass 63.0 Cu, 2.5 Pb, 34.5 Zn F 50(7)C36000 Free-cutting brass 61.5 Cu, 3.0 Pb, 35.5 Zn F, R, S 53(18)C36500 to C36800 Leaded Muntz metal 60.0 Cu(k), 0.6 Pb, 39.4 Zn F 45C37000 Free-cutting Muntz metal 60.0 Cu, 1.0 Pb, 39.0 Zn T 40(6)C37700 Forging brass 59.0 Cu, 2.0 Pb, 39.0 Zn R, S 45
(SHEET 5 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 845 Wednesday, December 31, 1969 17:00
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Trang 32C42200 87.5 Cu, 1.1 Sn, 11.4 Zn F 46C42500 88.5 Cu, 2.0 Sn, 9.5 Zn F 49C43000 87.0 Cu, 2.2 Sn, 10.8 Zn F 55(3)C43400 85.0 Cu, 0.7 Sn, 14.3 Zn F 49(3)C43500 81.0 Cu, 0.9 Sn, 18.1 Zn F, T 46(7)C44300, C44400, C44500 Inhibited admiralty 71.0 Cu, 28.0 Zn, 1.0 Sn F, W, T 65(0)
(SHEET 6 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 846 Wednesday, December 31, 1969 17:00
Trang 33C51100 95.6 Cu, 4.2 Sn, 0.2 P F 48C52100 Phosphor bronze, 8% C 92.0 Cu, 8.0 Sn, trace P F, R, W 70C52400 Phosphor bronze, 10% D 90.0 Cu, 10.0 Sn, trace P F, R, W 70(3)C54400 Free-cutting phosphor bronze 88.0 Cu, 4.0 Pb, 4.0 Zn, 4.0 Sn F, R 50(15)C60800 Aluminum bronze, 5% 95.0 Cu, 5.0 Al T 55
C61000 92.0 Cu, 8.0 Al R, W 65(25)C61300 92.65 Cu, 0.35 Sn, 7.0 Al F, R, T, P, S 42(35)
(SHEET 7 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
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Trang 34
C61400 Aluminum bronze, D 91.0 Cu, 7.0 Al, 2.0 Fe F, R, W, T, P, S 45(32)
C61500 90.0 Cu, 8.0 Al, 2.0 Ni F 55(1)C61800 89.0 Cu, 1.0 Fe, 10.0 Al R 28(23)C61900 86.5 Cu, 4.0 Fe, 9.5 Al F 30(1)C62300 87.0 Cu, 10.0 Al, 3.0 Fe F, R 35(22)C62400 86.0 Cu, 3.0 Fe, 11.0 Al F, R 18(14)C62500 82.7 Cu, 4.3 Fe, 13.0 Al F, R 1C63000 82.0 Cu, 3.0 Fe, 10.0 Al, 5.0 Ni F, R 20(15)C63200 82.0 Cu, 4.0 Fe, 9.0 Al, 5.0 Ni F, R 25(20)C63600 95.5 Cu, 3.5 Al, 1.0 Si R, W 64(29)C63800 99.5 Cu, 2.8 Al, 1.8 Si, 0.40 Co F 36(4)C64200 91.2 Cu, 7.0 Al F, R 32(22)
(SHEET 8 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 848 Wednesday, December 31, 1969 17:00
Trang 35
C65100 Low-silicon bronze, B 98.5 Cu, 1.5 Si R, W, T 55(11)C65500 High-silicon bronze, A 97.0 Cu, 3.0 Si F, R, W, T 63(3)C66700 Manganese brass 70.0 Cu, 28.8 Zn, 1.2 Mn F, W 60C67400 58.5 Cu, 36.5 Zn, 1.2 Al, 2.8 Mn, 1.0 Sn F, R 28(20)C67500 Manganese bronze, A 58.5 Cu, 1.4 Fe, 39.0 Zn, 1.0 Sn, 0.1 Mn R, S 33(19)C68700 Aluninum brass, arsenical 77.5 Cu, 20.5 Zn, 2.0 Al, 0.1 As T 55
C68800 73.5 Cu, 22.7 Zn, 3.4 Al, 0.40 Co F 36C69000 73.3 Cu, 3.4 Al, 0.6 Ni, 22.7 Zn F 40C69400 Silicon red brass 81.5 Cu, 14.5 Zn, 4.0 Si R 25(20)C70400 92.4 Cu, 1.5 Fe, 5.5 Ni, 0.6 Mn F, T 46C70600 Copper nickel, 10% 88.7 Cu, 1.3 Fe, 10.0 Ni F, T 42(10)C71000 Copper nickel, 20% 79.00 Cu, 21.0 Ni F, W, T 40(3)
(SHEET 9 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 849 Wednesday, December 31, 1969 17:00
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Trang 36
C71500 Copper nickel, 30% 70.0 Cu, 30.0 Ni F, R, T 45(15)
C71700 67.8 Cu, 0.7 Fe, 31.0 Ni, 0.5 Be F, R, W 40(4)C72500 88.20 Cu, 9.5 Ni, 2.3 Sn F, R, W, T 35(1)C73500 72.0 Cu, 18.0 Ni , 10.0 Zn F, R, W, T 37(1)C74500 Nickel silver, 65-10 65.0 Cu, 25.0 Zn, 10.0 Ni F, W 50(1)C75200 Nickel silver, 65-18 65.0 Cu, 17.0 Zn, 18.0 Ni F, R, W 45(3)C75400 Nickel silver, 65-15 65.0 Cu, 20.0 Zn, 15.0 Ni F 43C75700 Nickel silver, 65-12 65.0 Cu, 23.0 Zn, 12.0 Ni F, W 48
(SHEET 10 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 850 Wednesday, December 31, 1969 17:00
Trang 37(h) C12700, 8 oz/ton Ag; C12800,10 oz/ton; C12900,16 oz/ton; C13000, 25 oz/ton.
(i) 8.30 oz/ton Ag
(j) C18200, 0.9 Cr; C18400, 0.8 Cr; C18500, 0.7 Cr(k) Rod, 61.0 Cu min
C76200 59.0 Cu, 29.0 Zn, 12.0 Ni F, T 50(1)C77000 Nickel silver, 55-18 55.0 Cu, 27.0 Zn, 18.0 Ni F, R, W 40
C72200 82.0 Cu, 16.0 Ni, 0.5 Cr, 0.8 Fe, 0.5 Mn F, T 46(6)C78200 Leaded nickel silver, 65-8-2 65.0 Cu, 2.0 Pb, 25.0 Zn, 8.0 Ni F 40(3)
(SHEET 11 OF 11)
UNS Number and Name
Nominal Composition (%)
Commercial Forms(a)
Elongation
in 2 In (%)
(a) F, flat products; R, rod; W, wire; T, tube; P, pipe; S, shapes
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM International, Materials Park, OH, p442–454, (1993).
8.29 Mechanical L Page 851 Wednesday, December 31, 1969 17:00
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Trang 38Mechanical Properties
Temperature (°C)
Elongation in 25mm (%)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p488, (1993)
8.30 Mechanical Page 852 Wednesday, December 31, 1969 17:00
Trang 39Shackelford & Alexander
Elongation (%)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p387, (1993)
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Trang 40Elongation (%)
Data from ASM Metals Reference Book, Third Edition, Michael Bauccio, Ed., ASM
International, Materials Park, OH, p387-389, (1993)
8.30 Mechanical Page 854 Wednesday, December 31, 1969 17:00