Product Detail
Chemical Composition
| TA5 | element | Fe | Al | C | N | H | B |
O |
| GB/T3620.1-07 | Min | 3.3 |
|
|||||
| Max | 0.3 | 4.7 | 0.08 | 0.04 | 0.015 | 0.005 |
0.15 |
Mechanical Properties
| Aolly Status | Tensile strength
Rm Mpa min |
Yield strength
R P 0. 2 Mpa min |
Elongation A 5 % min |
| annealed | 685 | 585 |
12 |
Physical Properties
| Density g/cm3 |
Melting Point ℃ |
| 4.505 |
1668 |
Standard
Titanium and Titanium Alloy Strip, Sheet, and Plate:ASTMB265-2006,JIS H4600-2007
Titanium and Titanium Aloy Welded Pipe:ASTM B337,ASTM B338, ASTM B861,ASTM B86
Titanium and Titanium Aloy Bar:ASTM B-348、AMS4967、ASTMF136、SB348
Characteristics of TA5
- High strength: Titanium alloys have high strength and good mechanical properties, and are stronger than many traditional metals.
- Low Density: The relatively low density of titanium alloys makes them ideal for lightweight designs, especially in applications where weight reduction is required but high strength is required.
- Good toughness: Titanium alloy has good toughness and can maintain good shape stability when subjected to impact and vibration.
- Excellent corrosion resistance: Titanium alloy has good corrosion resistance and can resist the erosion of many corrosive media such as strong acids, strong alkalis and salt water.
- Poor process performance: The processing performance of titanium alloy is relatively poor, including difficulty in cutting and easy absorption of impurities such as hydrogen, oxygen, nitrogen and carbon during thermal processing.
- Poor wear resistance: Titanium alloys have relatively poor wear resistance, so special treatments or the addition of other materials are required in friction and wear applications in some special fields.
- Complex production process: The industrial production of titanium is relatively late. Compared with other traditional metals, the preparation and processing technology of titanium alloy is relatively complex and requires high equipment and process requirements.
