- FMA
- The Fabricator
- FABTECH
- Canadian Metalworking
United Precision Services’ Auto Calibration of Tool Geometry system increases beveling precision
- March 31, 2022
- Product Release
- Fabricating
United Precision Services Inc. now offers its Auto Calibration of Tool Geometry (ACTG) technology, developed by MicroStep, to North American fabricators. The patented technology allows for precise, stable beveling using plasma, oxyfuel, fiber laser, and waterjet cutting processes, reports the manufacturer.
The self-learning calibration system detects and compensates for geometry and mechanical inaccuracies without calibration adjustment procedures. Compensation is based on correction movements to X-, Y-, and Z-axis motion. The system also can be used for calibrating MicroStep’s parallel bevel-cutting when using two cutting heads simultaneously.
United Precision | www.unitedprecisionservices.com
subscribe now
Keep up to date with the latest news, events, and technology for all things metal from our pair of monthly magazines written specifically for Canadian manufacturers!
Start Your Free Subscription- Stay connected from anywhere
Easily access valuable industry resources now with full access to the digital edition of Canadian Metalworking.
Easily access valuable industry resources now with full access to the digital edition of Canadian Fabricating & Welding.
- Trending Articles
Aluminum MIG welding wire upgraded with a proprietary and patented surface treatment technology
Achieving success with mechanized plasma cutting
Hypertherm Associates partners with Rapyuta Robotics
Brushless copper tubing cutter adjusts to ODs up to 2-1/8 in.
Gema welcomes controller
- Industry Events
MME Winnipeg
- April 30, 2024
- Winnipeg, ON Canada
CTMA Economic Uncertainty: Helping You Navigate Windsor Seminar
- April 30, 2024
- Windsor, ON Canada
CTMA Economic Uncertainty: Helping You Navigate Kitchener Seminar
- May 2, 2024
- Kitchener, ON Canada
Automate 2024
- May 6 - 9, 2024
- Chicago, IL
ANCA Open House
- May 7 - 8, 2024
- Wixom, MI