Forming Titanium Sheet
Forming titanium sheets involves shaping the material into the desired shape or configuration. Titanium has unique properties that require specific techniques and considerations for successful forming.
Relevant data
|
Name |
Titanium sheet & plate |
|
Classification |
Pure titanium/Titanium alloy |
|
Standard |
ASTM B348、ASTM F136、ASTM F7、AMS4928 |
|
Grade |
GR1、GR2、GR3、GR5、GR7、GR12 |
|
Size |
Thickness(0.3mm-60mm)*Width(≤2000mm)*Length(≤4000mm) |
|
Processing method |
Hot rolling/Cold rolling |
|
Test report |
Third-party testing |

Features and Functions
The following are some of the common methods used to form titanium sheets:
1. Bending: Bending is a common method of forming titanium sheet. It can be performed using a press, a roll bender or a specialized bender. When bending titanium, it is important to consider the tendency of the material to spring back and to use the appropriate technique to achieve the desired angle or radius.
2. Stretch Forming: Stretch forming involves stretching a titanium sheet over a mold or shape to achieve a complex curve or shape. This method is typically used in aerospace applications and requires specialized equipment capable of applying controlled stretching forces.
3. Hydroforming: Hydroforming uses fluid pressure to form titanium sheets into complex shapes. The titanium sheet is placed on a mold and pressurized with a fluid (usually water or oil) to form it into the desired shape. Hydroforming allows for precise control and uniform deformation.
4. Spinning: Spinning is a technique commonly used for cylindrical or conical shapes. The titanium sheet is clamped on a rotating mandrel and pressure is applied to the sheet using a spinning tool to form it into the desired shape.
5. Deep drawing: Deep drawing is a process used to create hollow or cup-shaped parts. The titanium sheet is clamped in a die and a punch is used to push the sheet into the die cavity to form the desired shape.
When forming titanium sheets, it is important to consider the unique properties of the material, such as its low thermal conductivity and high tendency to spring back. Here are some additional tips to keep in mind:
- Use proper lubrication to reduce friction and heat buildup during the forming process.
- Take precautions to avoid contamination during the molding process, as titanium is highly reactive with certain elements.
- Control the temperature during the molding process to avoid overheating or underheating the material.
- Follow proper safety measures during the use of titanium, including wearing protective equipment and following established procedures for handling and disposing of titanium scrap.
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