AA 2014 Lega di alluminio
Aggiornamenti dei dati
Questo materiale dispone di 3051 dati sulle proprietà — qui ne viene mostrato solo un sottoinsieme.
Sblocca tutte le proprietà del materiale, inclusi i valori dettagliati a diverse temperature e condizioni.
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AA 2014 Composizione chimica
International alloy designations and chemical composition limits for wrought aluminum and wrought aluminum alloys - Teal Sheets (2025), 2025
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AA 2014 Proprietà fisiche
Temperatura
Questo materiale dispone di 3051 dati sulle proprietà — qui ne viene mostrato solo un sottoinsieme.
Sblocca valori fisici dettagliati a diverse temperature e condizioni.
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AA 2014 Trattamento Termico
- The times and temperatures are typical for various forms, sizes and methods of manufacture and may not exactly describe the optimum treatment for a specific item.
The nominal temperatures at which metal is heated (applies both for solution and precipitation heat treatment) should be attained as rapidly as possible and maintained ± 5°C of nominal during the time at temperature.
The time at precipitation heat treatment temperature will depend on time required for load to reach temperature. The times shown are based on rapid heating, with soaking time measured from the time the load reached within 5°C of the applicable temperature.
Material should be quenched from the solution heat-treating temperature as rapidly as possible and with minimum delay after removal from the furnace. Quenching is typically performed by immersion of wrought products in a cold water bath, although some forgings are quenched in hot-water. Quenching may be performed by alternative means such as total immersion in an aqueous polymer solution, liquefied gas, hot water, or boiling water, or by air blast or fog to minimize distortion provided samples from the material. The use of high-velocity high-volume jets of cold water is also effective for some materials.
For flat sheet
Temper T3: Solution heat treated at 500°C, quenched, naturally aged. Cold work subsequent to solution heat treatment is required to attain the specified mechanical properties for this temper.
Temper T42: Solution heat treated at 500°C, quenched, naturally aged.
Temper T62: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours.
For coiled sheet
Temper T4: Solution heat treated at 500°C, quenched, naturally aged.
Temper T42: Solution heat treated at 500°C, quenched, naturally aged.
Temper T6: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours.
Temper T62: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours.
For plate
Temper T451: Solution heat treated at 500°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.
Temper T42: Solution heat treated at 500°C, quenched, naturally aged.
Temper T651: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.
Temper T62: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours.
For rolled or cold finished wire, rod and bar
Temper T4: Solution heat treated at 500°C, quenched, naturally aged.
Temper T451: Solution heat treated at 500°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.
Temper T42: Solution heat treated at 500°C, quenched, naturally aged.
Temper T6: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used.
Temper T651: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.
Temper T62: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used.
For extruded wire, rod, bar, profiles and tube
Temper T4: Solution heat treated at 500°C, quenched, naturally aged.
Temper T4510: Solution heat treated at 500°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.
Temper T4511: Solution heat treated at 500°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.
Temper T42: Solution heat treated at 500°C, quenched, naturally aged.
Temper T6: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used.
Temper T6510: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.
Temper T6511: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.
Temper T62: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used.
For drawn tube
Temper T4: Solution heat treated at 500°C, quenched, naturally aged.
Temper T42: Solution heat treated at 500°C, quenched, naturally aged.
Temper T6: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used.
Temper T62: Solution heat treated at 500°C, quenched, precipitation heat treated at 160°C for 18 hours. An alternative treatment comprised of 8 hours at 175°C also may be used.
For die forgings
Temper T4: Solution heat treated at 500°C, quenched in water at 60°C to 80°C, naturally aged.
Temper T6: Solution heat treated at 500°C, quenched in water at 60°C to 80°C, precipitation heat treated at 170°C for 10 hours.
For hand forgings and rolled rings
Temper T4: Solution heat treated at 500°C, quenched, naturally aged. By definition, this temper designation is that which would apply after natural aging even though mechanical properties for this alloy-temper product have not been registered.
Temper T452: Solution heat treated at 500°C, quenched, naturally aged. Stress-relieved by 1-5 percent cold reduction subsequent to solution heat treatment. By definition, this temper designation is that which would apply after natural aging even though mechanical properties for this alloy-temper product have not been registered.
Temper T6: Solution heat treated at 500°C, quenched, precipitation heat treated at 170°C for 10 hours.
Temper T652: Solution heat treated at 500°C, quenched in water at 60°C to 80°C, precipitation heat treated at 170°C for 10 hours. Stress-relieved by 1-5 percent cold reduction prior to precipitation heat treatment.
Annealing (O)
Heated at 415°C, held for 2-3 hours. This treatment is intended to remove effects of solution heat treatment and include cooling at a rate of about 30°C per hour from the annealing temperature to 260°C. The rate of subsequent cooling is unimportant. Treatment at 345°C, followed by uncontrolled cooling, may be used to remove the effects of cold work, or to partially remove the effects of heat treatment.
AA 2014 Proprietà meccaniche
Temperatura
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Materiali equivalenti internazionali di AA 2014
Visualizzazione di 15 risultati su 339.
Le categorie di equivalenza si basano sul confronto della composizione chimica e delle proprietà meccaniche. Si raccomanda di verificare sempre l'idoneità del materiale rispetto alla specifica e all'applicazione prevista.
Hai bisogno dell'elenco completo dei 339 equivalenti internazionali?
Visualizza tutti i 339 gradi equivalenti con una mappatura dettagliata per norma, produttore e categoria di equivalenza.
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- 339Riferimenti incrociati
- 23Composizione
- 1250Proprietà meccaniche
- 249Proprietà fisiche
- 2Trattamento Termico
- 5Metallografia
- 1Lavorabilità
- 328Sforzo-Deformazione
- 1Formabilità
- 173Fatica
- 25Frattura
- 6Strisciare
- 8Giunzioni
- -Rivestimenti
- -Dimensioni
- -Tribologia
- 6Corrosione
- 432Invecchiamento
- -Resistenza agli agenti atmosferici
- 6Irraggiamento
- 197Fornitori Totali