Berthold Webinar
Optimize your radiometric steel level measurement to increase accuracy, profitability and safety
LEARN FROM OUR EXPERTS about how to optimize your radiometric steel level measurement to increase accuracy, profitability and safety. Our top minds will take you through finding solutions to the challenges faced when measuring the steel level.
MEASUREMENT TECHNOLOGY
Measuring mould level with Berthold!
Gamma radiation is attenuated as it passes through the mold. The higher the level of molten metal in the mold, the less radiation will reach the detector. In this manner, the mold level can be reliably monitored – irrespective of dust, temperature and vibrations. The radiometric measurement is maintenance-free and applicable for all mold types and sizes. In addition to installations on slab and billet casters, it is also applicable for beam-blank and round casters.
Technological Highlights
Simple and intuitive operation
- Easy to use, intuitive, multilingual user interface
- Highest safety and robustness of measurement
- Supports automatic start-up
- Handles up to 4 measuring channels per unit
State of the art technology
- Technological leader in radiometric measurements
- Extremely fast 5 ms cycle time
- Sensor based on the SiPM technology
- Sensor immune towards EMS and EMBr
Whitepaper
Measuring the steel level in continuous casting
Radiometric based mould level measurement is the dominating technology for measuring the steel level in continuous casting. Herein we discuss performance, statistical variation, influencing factors, source selection, and a recent development that enables the simultaneous measurement of casting powder layer thickness.
AOS - Activity Optimized Source
By optimizing the activity distribution in the rod sources for the mould level measurement, we significantly increase the accuracy in the upper part of the measuring range. This minimizes the statistical noise without increasing the overall activity of the source.
If you are content with your current accuracy, AOS can be used to reduce the source activity while maintaining the same accuracy. Depending on the application, this may allow for the use of a smaller shield. In many cases, the more cost-efficient lead shield may be used instead of tungsten.