钛合金-TI4.5AL3V2MO2FE物理和机械性能

2003年9月12日

Chemical Formula

ti4.5al3v2mo2fe

背景

这款Beta Rich Alpha-Beta合金也被称为SP 700FER超代性特性,优于Ti6al4v。其低流动应力和细小的微观结构可在低至700°C(1290°F)的温度下产生极端的形成性。这与极好的机械性能以及对热处理,冷形成和热锻造的良好反应结合在一起。

作品

Table 1.Ti4.5al3v2mo2fe的组成。

Content

al

4。0-5.0%

v

2。5-3.5%

Mo

1。8-2.2%

1.7-2.3%

o2

最大0.15%

C

0.05% max

n2

0.05% max

H2

0.01% max

ti

Balance

钥匙特性

Physical Properties

Table 2.Ti4.5al3v2mo2fe的典型物理特性。

Property

Typical Value

密度g/cm3(lb/ cu in)

4.54(0.163)

Melting Range °C ±5°C (°F)

1593(2900)

特定的热量J/kg/°C(BTU/LB/°F)

495(118)

Thermal Conductivity W/mK (BTU/ft hr.°F)

7(4)

平均热膨胀Co-Feff 20-100°C /°C(68-212°F /°F)

7.7x10-6(4.3)

beta transus°C±15°C(°F)

900(1652)

Mechanical Properties

表3。Typical mechanical properties for Ti4.5Al3V2Mo2Fe, mill annealed at 720°C (1328°F) for 1hr, followed by air cooling.

Property

Typical

0.2%证明应力MPA(KSI)

972(141)

拉伸强度MPA(KSI)表

1023 (148)

1英寸的伸长率

19.0

Reduction in Area %

61。9

硬度HV

305

表4。Typical mechanical properties for Ti4.5Al3V2Mo2Fe, after recrystallisation annealing at 800°C (1472°F) for 1hr, followed by air cooling.

Property

Typical

0.2%证明应力MPA(KSI)

917 (133)

拉伸强度MPA(KSI)表

966 (140)

1英寸的伸长率

20.8

Reduction in Area %

61。6

硬度HV

291

表5。Ti4.5al3v2mo2Fe的典型机械性能,在850°C(1560°F)的溶液处理和衰老后进行1小时,然后进行水淬火,然后进行510°C(950°F),然后进行6小时,然后进行空气冷却。

Property

Typical

0.2%证明应力MPA(KSI)

1265(183)

拉伸强度MPA(KSI)表

1428 (207)

1英寸的伸长率

9.0

Reduction in Area %

26.8

硬度HV

421

表6。Ti4.5Al3v2mo2Fe的典型机械性能,在850°C(1560°F)的溶液处理和衰老后进行1小时,然后进行淬火和510°C(950°F),然后进行空气冷却。

Property

Typical

0.2%证明应力MPA(KSI)

1114((162)

拉伸强度MPA(KSI)表

1213((176)

1英寸的伸长率

14.4

Reduction in Area %

39.6

硬度HV

380

Source: The Titanium Information Group

For more information on this source please visit钛信息组

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