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Boring Tools
SUPSTTED Precision Boring Tools: Engineered for Uncompromising Accuracy
Elevate your machining capabilities with SUPSTTED Boring Tools—designed for professionals who demand perfection in every cut. Our tools feature proprietary Tri-Phase Carbide Inserts that resist micro-fracturing under high-torque operations, extending tool life by up to 40% versus industry standards. The Harmonic Dampening Shank minimizes vibration harmonics at depths exceeding 8xD, ensuring mirror-finish bores even in hardened alloys.
Each tool undergoes Cryo-Tempering at -196°C, stabilizing molecular structure to prevent thermal drift during extended runs. Compatible with ISO 10+ holder systems, our patented Radial Coolant Ducts deliver targeted lubrication, reducing chip welding and enabling speeds up to 28,000 RPM. Backed by our Zero-Runout Guarantee (±0.001mm tolerance), SUPSTTED delivers repeatable precision for aerospace, medical, and automotive applications.
Show Details
Specitications
| SIZES | |||||
| MTR | MTR-6-R0.2-L30 | MPR6-R0.2-L22 | MQR | ||
| MTR-1-R0.05-L4 | MTR-8-R0.2-L22 | MPR-8-R0.2-L27 | MQR-3-R0.15-L15 | ||
| MTR-1.5-R0.1-L6 | MTR-8-R0.2-L32 | MQR-4-R0.15-L15 | |||
| MTR-2-R0.1-L10 | MUR | MQR-5-R0.20-L22 | |||
| MTR-3-R0.1-L15 | MPR | MUR-3-R0.05-L10 | MQR-6-R0.20-L22 | ||
| MTR-4-R0.1-L15 | MPR-2-R0.1-L10 | MUR-4-R0.1-L15 | |||
| MTR-4-R0.1-L22 | MPR-3-R0.1-L15 | MUR-5-R0.15-L22 | |||
| MTR-5-R0.2-L22 | MPR-4-R0.1-L15 | MUR-6-R0.15-L22 | |||
| MTR-6-R0.2-L22 | MPR-5-R0.2-L22 | ||||
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
Q: What types of boring operations are your tools designed for?
A: Our boring tools are engineered for precision internal machining operations, including line boring (for engine blocks, housings), deep hole boring, fine boring (achieving tight tolerances), and back boring (reaching behind obstructions). We offer dedicated tools for each application to ensure optimal performance and accuracy.
Q: What materials can I machine with your boring tools?
A: Our boring tools are manufactured using premium carbide grades and advanced coatings, making them suitable for machining a wide range of materials. This includes various steels (alloy, stainless), cast iron, aluminum alloys, and non-ferrous metals. Specific tool geometries and coatings are recommended based on the material for best results.
Q: How do I achieve the best precision and surface finish with your boring bars?
A: Maximize precision and finish by:
Selecting the shortest possible bar extension for maximum rigidity.
Using the correct cutting insert geometry and grade for your material.
Ensuring the tool holder and workpiece are securely clamped.
Optimizing cutting parameters (speed, feed, depth of cut) based on material and tool specifications.
Utilizing dampened boring bars for deep-hole applications to minimize vibration (chatter).
Q: Why is my boring tool chattering or vibrating excessively?
A: Chatter is often caused by insufficient tool rigidity. Common solutions include:
Shorten the Overhang: Use the shortest boring bar possible for the depth required.
Increase Rigidity: Ensure the bar and insert are tightly secured; check machine spindle and workpiece clamping.
Adjust Parameters: Reduce feed rate or increase cutting speed within recommended limits.
Use Dampened Bars: For deep holes, switch to a boring bar with built-in vibration damping.
Check Insert: Ensure the insert is sharp, correctly seated, and appropriate for the application.
Apply Coolant: Use adequate coolant/lubrication effectively.
Q: How do I maintain my boring tools for longevity?
A: Proper maintenance is key:
Regular Inspection: Check inserts for wear, chipping, or damage before each use and replace promptly.
Cleanliness: Keep tool holders, tapers, and clamping surfaces clean and free of debris or chips.
Correct Assembly: Ensure all components (inserts, screws, shims, holders) are assembled correctly and tightened to the specified torque.
Proper Storage: Store tools in a clean, dry, organized environment to prevent damage and corrosion.
Follow Recommendations: Adhere to the manufacturer's guidelines for operating parameters (speed, feed, DOC) and tool usage.
Boring Tools
SUPSTTED Precision Boring Tools: Engineered for Uncompromising Accuracy
Elevate your machining capabilities with SUPSTTED Boring Tools—designed for professionals who demand perfection in every cut. Our tools feature proprietary Tri-Phase Carbide Inserts that resist micro-fracturing under high-torque operations, extending tool life by up to 40% versus industry standards. The Harmonic Dampening Shank minimizes vibration harmonics at depths exceeding 8xD, ensuring mirror-finish bores even in hardened alloys.
Each tool undergoes Cryo-Tempering at -196°C, stabilizing molecular structure to prevent thermal drift during extended runs. Compatible with ISO 10+ holder systems, our patented Radial Coolant Ducts deliver targeted lubrication, reducing chip welding and enabling speeds up to 28,000 RPM. Backed by our Zero-Runout Guarantee (±0.001mm tolerance), SUPSTTED delivers repeatable precision for aerospace, medical, and automotive applications.
Show Details
Specitications
| SIZES | |||||
| MTR | MTR-6-R0.2-L30 | MPR6-R0.2-L22 | MQR | ||
| MTR-1-R0.05-L4 | MTR-8-R0.2-L22 | MPR-8-R0.2-L27 | MQR-3-R0.15-L15 | ||
| MTR-1.5-R0.1-L6 | MTR-8-R0.2-L32 | MQR-4-R0.15-L15 | |||
| MTR-2-R0.1-L10 | MUR | MQR-5-R0.20-L22 | |||
| MTR-3-R0.1-L15 | MPR | MUR-3-R0.05-L10 | MQR-6-R0.20-L22 | ||
| MTR-4-R0.1-L15 | MPR-2-R0.1-L10 | MUR-4-R0.1-L15 | |||
| MTR-4-R0.1-L22 | MPR-3-R0.1-L15 | MUR-5-R0.15-L22 | |||
| MTR-5-R0.2-L22 | MPR-4-R0.1-L15 | MUR-6-R0.15-L22 | |||
| MTR-6-R0.2-L22 | MPR-5-R0.2-L22 | ||||
Clients Good Feedback
Factory
Service Introduction
Logistics Package
FAQ
Q: What types of boring operations are your tools designed for?
A: Our boring tools are engineered for precision internal machining operations, including line boring (for engine blocks, housings), deep hole boring, fine boring (achieving tight tolerances), and back boring (reaching behind obstructions). We offer dedicated tools for each application to ensure optimal performance and accuracy.
Q: What materials can I machine with your boring tools?
A: Our boring tools are manufactured using premium carbide grades and advanced coatings, making them suitable for machining a wide range of materials. This includes various steels (alloy, stainless), cast iron, aluminum alloys, and non-ferrous metals. Specific tool geometries and coatings are recommended based on the material for best results.
Q: How do I achieve the best precision and surface finish with your boring bars?
A: Maximize precision and finish by:
Selecting the shortest possible bar extension for maximum rigidity.
Using the correct cutting insert geometry and grade for your material.
Ensuring the tool holder and workpiece are securely clamped.
Optimizing cutting parameters (speed, feed, depth of cut) based on material and tool specifications.
Utilizing dampened boring bars for deep-hole applications to minimize vibration (chatter).
Q: Why is my boring tool chattering or vibrating excessively?
A: Chatter is often caused by insufficient tool rigidity. Common solutions include:
Shorten the Overhang: Use the shortest boring bar possible for the depth required.
Increase Rigidity: Ensure the bar and insert are tightly secured; check machine spindle and workpiece clamping.
Adjust Parameters: Reduce feed rate or increase cutting speed within recommended limits.
Use Dampened Bars: For deep holes, switch to a boring bar with built-in vibration damping.
Check Insert: Ensure the insert is sharp, correctly seated, and appropriate for the application.
Apply Coolant: Use adequate coolant/lubrication effectively.
Q: How do I maintain my boring tools for longevity?
A: Proper maintenance is key:
Regular Inspection: Check inserts for wear, chipping, or damage before each use and replace promptly.
Cleanliness: Keep tool holders, tapers, and clamping surfaces clean and free of debris or chips.
Correct Assembly: Ensure all components (inserts, screws, shims, holders) are assembled correctly and tightened to the specified torque.
Proper Storage: Store tools in a clean, dry, organized environment to prevent damage and corrosion.
Follow Recommendations: Adhere to the manufacturer's guidelines for operating parameters (speed, feed, DOC) and tool usage.
