Description
The Cast Iron T-Slotted Webbed Angle Plate, measuring 110 x 105 x 60 mm, is a robust and precision-engineered tool designed for versatile clamping and fixturing applications in machining operations. Crafted from high-grade cast iron, this angle plate undergoes full stress relief to ensure exceptional stability and durability over its operational lifespan.
Key Features:
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Material: High Grade Cast Iron, ensuring strength and stability.
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Dimensions: 110 mm (width) x 105 mm (height) x 60 mm (thickness).
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Weight: Solid construction yet manageable weight for practical handling.
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Wall Thickness:
- T-Slotted Wall: 18 mm thickness, providing ample strength for clamping and securing workpieces.
- Drilled Base: 12 mm thickness, accommodating the 9.5 mm diameter drills for secure anchoring.
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T-Slot Design:
- Base T-Slot: 17 mm wide, facilitating easy attachment to work tables or machine beds.
- Top Slot: 10 mm wide at the top, allowing flexible positioning and securing of components.
- Depth: 6 mm, ensuring compatibility with standard T-slot nuts and bolts.
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Base Gib: Featuring a 9 mm base gib, enhancing stability and precision during use.
Usage:
This angle plate is indispensable in machining setups, offering a reliable platform for accurate clamping, alignment, and fixture mounting. The T-slots on the base and top provide versatile options for securing workpieces and tooling securely in place, accommodating various machining requirements.
Applications:
Ideal for milling, drilling, and grinding operations, where precise positioning and secure clamping are essential. The robust construction and stress-relieved casting ensure minimal distortion under load, maintaining accuracy and reliability in demanding industrial environments.
Conclusion:
The Cast Iron T-Slotted Webbed Angle Plate 110 x 105 x 60 mm combines durable construction with precise engineering, making it a trusted choice for machinists and fabricators seeking dependable performance in workholding and fixture applications. Its solid design and thoughtful features contribute to improved efficiency and accuracy in machining tasks.
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