Woodward Fab WFBDT2X6 Tubing Die, 2" OD, 6" CLR, for WFB2 Bender
- The Woodward Fab WFBDT2X6 tubing die is engineered for use with the WFB2 Bender. It bends tubing with a 2 inch outside diameter to a 6 inch centerline radius, making it suitable for heavy-duty fabrication, chassis construction, and roll cage projects.
- Features:
- Compatible with 2 inch OD round tubing, ideal for large-diameter bends in fabrication work.
- 6 inch centerline radius provides smooth, consistent bends with reduced distortion.
- Constructed from hardened steel for strength and long service life under repeated bending loads.
- Supports tubing wall thickness up to approximately 0.134 inch for durability in structural applications.
- Capable of bending up to about 110 degrees for versatile fabrication requirements.
- Specifications:
- Manufacturer: Woodward Fab
- Part Number: WFBDT2X6
- Tube Outside Diameter: 2 inch
- Centerline Radius: 6 inches
- Maximum Wall Thickness: 0.134 inch
- Maximum Bend Angle: 110 degrees
- System Compatibility/Application: Designed specifically for the Woodward Fab WFB2 Bender; ideal for roll cages, chassis frames, and heavy fabrication projects requiring larger tubing bends
- The Woodward Fab WFBDT2X6 tubing die can also be referred to as a 2 inch OD die, 6 inch CLR die, WFB2 replacement die, or heavy-duty tubing die for fabrication projects.
Woodward Fab builds high-quality bending dies for professional metalworking. The WFBDT2X6 die is precision-machined to deliver accurate, repeatable bends on 2 inch tubing, ensuring consistent performance in demanding fabrication environments.
Q: What is the maximum wall thickness supported?
A: This die can handle tubing wall thicknesses up to about 0.134 inch, making it suitable for heavy-duty tube bending.
Q: What bend angle can be achieved with this die?
A: The WFBDT2X6 tubing die is rated to bend up to approximately 110 degrees using the WFB2 Bender.
Q: What applications is this die best suited for?
A: It is ideal for heavy fabrication projects such as roll cages, chassis frames, and structural tubing bends that require both strength and precision.
