June 21, 2016
Arrival between 10:00 and 10:30 a.m. Ending at around 3:00 p.m. |
Congress Park Hanau
Schloßplatz 1 63450 Hanau Germany |
The GOM Workshop is an industrial meeting platform for design engineers, tool and mold makers as well as specialists from quality assurance and production. The free workshop offers an insight into how optical 3D metrology is integrated into modern injection molding process chains. Leading industrial companies present examples from their day-to-day practice to show how optical measuring systems support them to shorten development times, optimize production processes and thereby improve the company‘s profitability.
Speakers include:
- ColoplastQuality Assurance Strategies in Medical Engineering: 3D Metrology and Automation
- PöppelmannThe Effects of Current GPS Standards on Quality Assessment for Plastic Parts
- Continental3D Master – Drawing-free Process at Continental
Alongside these user experiences, the GOM team stages live presentations to present the latest developments in 3D metrology as well as in the measurement and inspection software.
Injection molding process chain
Tools & Electrodes
- Targeted tool corrections
- Inspection of NC machining
- Assembly analysis
- Optimization of multiple cavities
- Reverse engineering & archiving
Assembly Analysis
- Inspection of clearance (2D, 3D)
- Verification of gap & flush
- Virtual assembly
- Component deformation
- Fitting analysis
Injection Molded Parts
- First article inspection
- Shape and dimension verification
- Shrinkage and warpage analysis
- Series measurements & trend analysis
- Reduction of inspection dimensions
Industrial 3D Measuring Techniques in Injection Molding Processes
In plastics engineering, 3D metrology supports and speeds up all phases in blow molding and thermoforming: from prototype & tool construction to first article inspection reports through to assembly analysis and load testing.
With the ATOS optical 3D coordinate measuring system, the complete surfaces of prototypes, electrodes, tools and injection molded parts can be measured – non-contact and regardless of the object size. In contrast to tactile measurement technology, this method even captures complex freeform contours quickly and completely.
Full-field surface measurements guarantee faster first article inspection and targeted tool correction, thereby reducing production lead times. For production accompanying quality control both the measurements and the entire evaluation process can be automated.
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