Applications & User Cases
Cutting edge defects, high wear, long machining times or unsatisfactory results on drills, milling cutters etc. are challenges with which manufacturers are confronted. The optimal tool and machining parameters can be determined with optical 3D metrology.
Applications of optical 3D metrology in the tooling industry:
>> Cutting Edge Preparation
Measuring the real edge, automated chipping measurement, automated roughness measurement
>> Roughness in the flute
Roughness in the flute informs about the amount of resistance the chip has during its evacuation.
>> Cutting Tool Geometry
Outer diameter, Core diameter, Helix angle, drill tip angle, Rake angle, margin, webs
>> Definition of correct machining parameters such as feed rate and cutting speed
>> Quantifications of droplets for improved coating process
>> Full form measurement with Real3D technology
How optical 3D metrology can help to identify of the correct tool and machining parameters of cutting tools
Controlling tool quality on the shop floor
Watch our webinar that was held in cooperation with OSG, one of the world's leading manufacturers of shank tools.
In this webinar you will learn more about the optimization of your systems through optical 3D metrology:
- Quality assurance of drills, cutters and threading tools
- Automatic tool edge measurement
- Round tool geometry and roughness
- New measurement solutions
- Data exchange with ERP/QM systems
- Shop floor automation
Reliable tool quality control
Get to know how international tool manufacturer OSG uses Alicona metrology to ensure high quality tool performance. To analyse the tools, the following parameters are measured:
- the optical measurement of edge radii of all four cutting edges at defined positions relative to the tip
- the optical measurement of profile roughness along one of the edges to identify chipping
- the optical measurement of surface roughness inside the flute
Are your cutting tools competitive?
Users of drills and milling cutters often complain about edge defects, rapid wear, long machining times or unsatisfying results on the workpiece. In most of the cases, failures can be attributed to the tool’s incorrect surface ﬁnish or lack of know-how. The following white-paper “Are your cutting tools competitive” shows how optical 3D measurement technology can help to identify ideal tool and machining parameters and thus meet customer requirements.
User Cases | Practical Experiences
Read how our customers use optical 3D measuring systems in their quality assurance.
The applications found daily in various fields create additional benefits that you too can experience from using Focus Variation!