Titanium
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T35
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Titane Grade 1
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T35, Grade 1
Norms ASTM B-265, ASTM B-337, ASTM B-338, ASTM B-348, ASTM B-381, ASTM F-67, ASTM F-468, ASTM F-467
Production technique Drawn,
Rolled
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Fe | Ti | Other | Rm | Rp | A% | HB | Density | W/m.k | |||||||||||||||||||||
≤ 0,2 | Reste | ≤ 0,305 | ≥ 241 | ≥ 172 | ≥ 25 | 120 | 4,51 | 21,6 |
Excellent corrosion resistance. Good cold formability and ductility. Excellent weldability. Good tenacity.
Capacitors, Heat exchangers, Water treatment, Shielding, Nuclear reactors, Geothermal, Stainless Steel Valves, Springs, Connectors, Cryogenics, Manufacture of paper, Watches and jewelry, Architecture
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T40
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Titane Grade 2
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T40, Grade 2
Norms ASTM B-265, ASTM B-337, ASTM B-338, ASTM B-348, ASTM B-381, ASTM F-67, ASTM F-468, ASTM F-468, AMS 4902
Production technique Drawn, Rolled
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Fe | Ti | Other | Rm | Rp | A% | HB | Density | W/m.k | |||||||||||||||||||||
≤ 0,3 | Reste | ≤ 0,375 | ≥ 345 | ≥ 275 | ≥ 20 | 160 | 4,51 | 21,6 |
The most common for industrial use. Good balance between ductility-cold formability and resistance Mechanics. Excellent weldability. Exellent resistance to corrosion.
Capacitors, Heat exchangers, Water treatment, Shielding, Nuclear reactors, Geothermal, Stainless Steel Valves, Springs, Connectors, Cryogenics, Manufacture of paper, Watches and jewelry, Architecture
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T50
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Titane Grade 3
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T50, Grade 3
Norms ASTM B-265, ASTM B-337, ASTM B-338, ASTM B-348, ASTM B-381, ASTM F-67, ASTM F-468, AMS 4900
Production technique Drawn, Rolled
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Fe | Ti | Other | Rm | Rp | A% | HB | Density | W/m.k | |||||||||||||||||||||
≤ 0,3 | Reste | ≤ 0,495 | ≥ 448 | ≥ 379 | ≥ 18 | 200 | 4,51 | 21,6 |
Good Mechanics resistance. Ductility limited. Excellent weldability. Excellent corrosion resistance.
Capacitors, Heat exchangers, Water treatment, Shielding, Nuclear reactors, Geothermal, Stainless Steel Valves, Springs, Connectors, Cryogenics, Manufacture of paper, Watches and jewelry, Architecture
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T60
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Titane Grade 4
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T60, Grade 4
Norms ASTM B-348, ASTM B-367, ASTM B-381, ASTM F-67, ASTM F-468, AMS 4901
Production technique Etiré, Laminé
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Fe | Ti | Other | Rm | Rp | A% | HB | Density | W/m.k IACS |
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≤ 0,5 | Reste | ≤ 0,545 | ≥ 551 | ≥ 482 | ≥ 15 | 250 | 4,51 | 21,6 |
Good Mechanics resistance. Good weldability. Good resistance to corrosion.
Capacitors, Heat exchangers, Water treatment, Shielding, Nuclear reactors, Geothermal, Stainless Steel Valves, Springs, Connectors, Cryogenics, Manufacture of paper, Watches and jewelry, Architecture
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TA6V
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Titane Grade 5
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TA6V, Grade 5
Norms ASTM B-265, ASTM B-348, ASTM B-381, ASTM F-467, ASTM F-468, AMS 4928, AMS 4965, AMS 4967, RECUIT (AMS 4911, AMS 4906, AMS 4935)
Production technique Drawn, Rolled
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Al | Fe | Ti | V | Other | Rm | Rp | A% | HB | Density | W/m.k | |||||||||||||||||||
5,5-6,75 | ≤ 0,4 | Reste | 3,5-4,5 | ≤ 0,365 | ≥ 1000 | ≥ 910 | ≥ 18 | 350 | 4,43 | 7,3 |
The most widespread alloy titanium. Suitable for heat treatment. Usable up to 400 ° C. Suitable for foundry. Fairly good weldability. Forging ability (Roughing + finishing at 980/970 ° C).
Capacitors, Heat exchangers, Water treatment, Shielding, Nuclear reactors, Geothermal,Stainless Steel Valves, Springs, Connectors, Cryogenics, Manufacture of paper, Watches and jewelry, Architecture
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TA6V ELI
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Titane TA6V ELI
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Grade 23
Norms AMS 4907, AMS 4930, AMS 4956, ASTM B-337, ASTM F 136-92, ISO 5832
Production technique Drawn, Rolled
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Al | Fe | Ti | V | Other | Rm | Rp | A% | HB | Density | W/m.k IACS |
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5,5-6,5 | ≤ 0,25 | Reste | 3,5-4,5 | ≤ 0,273 | ≥ 980 | ≥ 900 | ≥ 17 | 315 | 4,43 | 7,3 |
The ELA (Extra Low Intersticials) grade of TA6V was developed to improve toughness and ductility at very low temperatures. Biocompatible. Recommended in seawater under stress. Fairly good weldability. Forging ability.
Engine and structural parts with strong toughness. Surgical Implants.
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TZM
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TZM
Production technique Sintered
Chemical composition | Mechanical characteristics | ||||||||||||||||||||||||||||
Zr | Mo | Ti | Other | Rm | Rp | A% | HB | Density | Recristallisation temperature |
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0,06-0,12 | Reste | 0,4-0,55 | 0,01-0,04 | 690 – 1130 | 620 – 1000 | 2,0-8,0 | 300-450 | 10,16 | 1250 |
Compared to molybdenum, TZM has a higher recrystallization temperature and higher heat resistance. It is therefore a material which is perfectly suitable for producing tools which must have a particularly high heat resistance. The use of TZM is preferable to molybdenum for the assembled parts because it is better suited for welding.
Under pressure moulding, Vacuum furnaces, Boats for firing and sintering techniques at temperatures above 1500 ° C