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TBS-1000

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Journal Articles
Alloy Digest (1963) 12 (6): SA-148.
Published: 01 June 1963
... TBS-1000 is a high carbon alloy steel developed for continuous operation up to 900 F and up to 1000 F for short periods. It is recommended for bearing applications at elevated temperatures and for certain high temperature tooling applications. This datasheet provides information on composition...
Journal Articles
Alloy Digest (1979) 28 (8): SA-363.
Published: 01 August 1979
... 60.0 1550 66.0 63.5 500 58.5 58.0 1575 65.0 63.0 600 55.5 55.5 1600 65.0 63.5 700 52.5 52.0 800 49.0 49.0 900 45.0 45.0 1000 40.0 39.0 1100 36.0 35.0 1200 32.0 30.0 1300 26.0 24.0 5 10 20 50 100 Cycles, 106 Fig 1 - Weibull tests reveal that TBS-9 has contact fatigue resistance equivalent...
Journal Articles
Alloy Digest (1963) 12 (2): SA-141.
Published: 01 February 1963
...) Test Temperature OF 400 500 600 700 800 900 1000 Hot Hardness Rockwell C 58.2 55.5 53.0 50.2 43.5 35.0 19.0 Room Temperature Recovered Hardness 55.5 48.5 Table 3 - RECOVERED HARDNESS (R.T.) AFTER LONG HOLDING AT 6OOOF (Quenched from 1550oF) (as quenched C65.0) Hours Rockwell C Hardness 2 60.0 8...
Journal Articles
Alloy Digest (1964) 13 (6): SS-157.
Published: 01 June 1964
... TENSILE PROPERTIES (Hear created by hardening ar 18000F for Iii hr.. oil quenched, tempered 2 hrs. ar indicated temperature) Temperi.lg Tensile Yield Reduction Rockwell Temperature Srreagdl ElOllgMi0~ of Area HZl&eSS OF psi Syrengch psr (0.2%) sin 4D 9. C - - - - 1000 157500 145500 13.0 35 1125 134000...
Journal Articles
Alloy Digest (1954) 3 (5): Al-16.
Published: 01 May 1954
...) (Ntamdid 17OO F, reheated to 152~lSSOmF, oil quaded) :q 9 . . pri %ill2ia. % Ii!zts E 265000 7 000 245000 30 iti 24.0 6 sss 512 700 235000 2150 0 8.5 8 1 :zi 1 0 zi z 1000 175oa 113 387 1200 13mDO 125000 18.0 Ei 302 1300 125000 11sooo 22.0 630 2s TabI@ AVERAGE MECHANICAL PROPERTIES 700 23lOOo 215.003 8.5...
Journal Articles
Alloy Digest (1955) 4 (4): Ti-6.
Published: 01 April 1955
...-2910 Thexmal cod. expansion/in/iF. (68-1000°F.) Specific heat, BTU/lb./OF. Elecoical resistivity, m&ohm-cm Thermd conductivity, BTU/hr/ftZ/ft/ F. Modulus of eiasticitv, Dsi Table 2 - HIGH TEMPEIWIURE STRENGTH-WEIGHT RATIO &ren& psi x lOd( Ib./in 2i 0.69 5 600 0.55 800 0.45 1000 0.27 Modulus of shear, l...
Journal Articles
Alloy Digest (1956) 5 (1): Mg-22.
Published: 01 January 1956
... TEMPERATURE PROPERTIES Tensile Suengrh, psi Yield Saengrh, psi (0.270) Elongarioa 70 in 2 T5 T6 T5 T6 T5 T6 20,000 22.000 12,000 14,000 18 0, 1 2 :; 11,000 13,000 8,000 9,000 54 53 Table 3 - CREEP PROPERTIES Suess, psi At 400 F. AC 600°F. 100 hrs. 1000 hrs. 100 hrs. 1000 ha. 4,900 7 8 4,400 6 9 1,300 1,100...
Journal Articles
Alloy Digest (1990) 39 (12): SA-454.
Published: 01 December 1990
... 50.7 Z:X Table 3 -ELEVATED-TEMPERATURE TENSILE PROPERTIES* Test Tensile Yield Strength Elongation Reduction Temperature Strength (0.2% Offset) (4.5 fi) of Area OF psi psi % % 400 270400 265300 11.0 58.0 600 256400 247400 10.0 58.0 ;ii 236100 204 229500 168 13.0 62.0 5 950 203800 200200 16.0 70.0 1000...
Journal Articles
Alloy Digest (1956) 5 (2): Mg-23.
Published: 01 February 1956
... at 400 OF. at 500°F. at 600°F. Extension 100 hrs. 1,000 hrs. 100 hrs. 1,000 hrs. 100 hrs. 1,000 hrs. 0.1 4.4 E :-ii 1.5 9:s 2 2 ; 3:5 :5 i-i 1:4 t-3 110 Values are the sttesses required to produce a given amount of extension in a given time at the indicated temperature. Stresses are given in 1000 psi...
Journal Articles
Alloy Digest (1997) 46 (4): SS-678.
Published: 01 April 1997
... ( 1560 to 1740°F). rapid cooling illair. Quench AmmaIiug. 1000 to 1100°C (1830 to 2OlO P). rapid cooling in air or water. Weldability: Stainless free-cutting steels have long been regarded as difficult to weld because the relatively high sulfur content entails the risk of hot-cracking in the weld metal...
Journal Articles
Alloy Digest (1984) 33 (2): SS-440.
Published: 01 February 1984
... *Maximum permeability. 132-194 120-167 8@99 46-55 I34-208* Table 3 - ROOM-TEMPERATURE MECHANlCPIL PROPERTIES Property Tensile strength. 1000 psi Yield strengh (0.2% offsetj. 1000 psi Elongation (2 in 9$$ Rockwell hardness Condition Condition Condition A RH950 TH 1050 I50 max 200 min 170 min 55 max I80 min...
Journal Articles
Alloy Digest (1984) 33 (6): TS-423.
Published: 01 June 1984
.... lb/cu in. (Approx.) Specific gravity (Approx.) Specific heat. Btu !Ib! F (32-212 F) Thermal coef. expansion, F (70-200 F) (70-4W F) (70-6OCP F) (70-800 F) (7s 1000 F) Modulus of elasticity. psi PROPERTIES Table 1 - ROOM-TEMPERATURE TENSILE PROPERTIES (l-inch round bars austenitized at 15000 F...
Journal Articles
Alloy Digest (1967) 16 (4): Mg-62.
Published: 01 April 1967
... -T6 Temper Forging Under 2 chick Strength psi - Elongation osi Tension Compression % in 2 43000 31000 27000 43000 31000 26000 43000 3 1000 25000 43000 3 1000 20000 45000 36000 30000 45000 36000 28000 45000 36000 25000 45000 34000 2 3000 45000 34000 22000 43000 31000 20000 36000 22000 42000 43000...
Journal Articles
Alloy Digest (1968) 17 (12): SA-234.
Published: 01 December 1968
... to Produce hfinimum Test Temperature Creep Race of JF 0.0001%. hour 0.00001% hour 750 85000 75000 800 74000 63000 900 44000 27000 1000 13000 4200 *Extrapolated Table 6 - STRESS RUPTURE DATA Test Temperature F 750 800 900 1000 Weldability: Stress, psi to Produce Rupture in 100 hours 1.000 hours 10,000 hours...
Journal Articles
Alloy Digest (1955) 4 (4): Al-25.
Published: 01 April 1955
.../asm.ad.al0025 Copyright © ASM International® 1996 Table 4 - CREEP CHARACTERISTICS OF 4032-T6 FORGINGS AT ELEVATED TEMPERATURES Temperature OF. 212 Sueas (psi) for Minimum Creep Rate of Stress (psi) for Rupture in o.oOoOO1 0.00001 0.0001 0.001 10 hr. 100 hr. 1000 hrs. 40000 42000 43000 44000 45000 43000 42000...
Journal Articles
Alloy Digest (1978) 27 (9): Ni-257.
Published: 01 September 1978
... from 70 to 18000F 70 190000 130000 24 24 14 37.5 74000 800 - - 35.5 - 1000 172000 125000 16 20 35.5 - 1200 165000 105000 23 32 27.5 35.0 62000 1400 125000 99000 28 41 1500 1600 80000 - - 3s 44000 76000 30 54 - 1700 55000 51000 34 58 1800 - 88 *Fatigue data are for modified WASPALOY containing 6.32...
Journal Articles
Alloy Digest (1967) 16 (10): TS-198.
Published: 01 October 1967
... requirements. Composition: Carbon 2.20 Manganese 0.25 Silicon 0.25 Chromium 12.00 Vanadium 1.00 Iron Remainder I Nominal Physical Constants: Specific gravity Density, Ib/cu.in. Modulus of elasticity, psi s 6 10 Thermal coef. expansio@F x 10m6 70- 200°F 70- 500°F 70-1000°F 70- 1400°F PROPERTIES Table 1...
Journal Articles
Alloy Digest (1966) 15 (1): Al-151.
Published: 01 January 1966
.... Cutting speeds of 500 to 1000 sfpm with feeds of 0.007 to 0.030 inch and deprh of cut up to 0.25 inch can be used in rough lathe turning; while cutting speeds of 600 to 1000 sfpm with feeds of 0.0002-0.010 inch and depth of cut of 0.002-0.010 inch can be used in finish larhe turning. In shaping, boring...
Journal Articles
Alloy Digest (1966) 15 (8): Al-14.
Published: 01 August 1966
..., lo-15 deg. side rake, 7-10 deg. front clearance and 7-10 deg. side clearance. Cuaing speeds up to 1000 sfpm may be used with feeds of 0.007-O.O2O /rev. and depth of cut up to 0.200 inch for roughing. Carbide-tipped curcing tools should be ground ro 55-70 deg. curting angle, 5-25 deg. top rake, 5- 10...
Journal Articles
Alloy Digest (1954) 3 (5): Mg-9.
Published: 01 May 1954
.... % Ii!zts E 265000 7 000 245000 30 iti 24.0 6 sss 512 700 235000 215000 8.5 8 1 :zi 10 0 zi z 1000 175oa 113 387 1200 13mDO 125000 18.0 Ei 302 1300 125000 11sooo 22.0 630 2s TabI@ AVERAGE MECHANICAL PROPERTIES 700 23lOOo 215.003 8.5 27.0 477 65 C49 800 212,000 193POo 10.0 35.0 444 61 G46 900 188.000...