LONG LIFE AND HIGH PERFORMANCE
Its special alloy makes CHRONITAL highly break-resistant and durable. And although CHRONITAL is very tough and elastic, its strength and hardness are further increased during blasting.
Paired with its high weight, CHRONITAL thus achieves an always convincing energy transfer so that you can realize your blasting processes quickly and with little effort.
As a strong allrounder, CHRONITAL easily handles a wide range of blasting tasks on a wide variety of materials.
- De-burring and edge rounding
- De-sanding, de-scaling and cleaning
- Roughening and structuring
- Satin finishing, smoothing and shot-peening
- High-alloy and low-alloy steels
- Aluminum, bronze, brass and zinc
- Titanium and nickel-based alloys
- Concrete and natural stones
Dust-free and less waste
While other blast abrasives break quickly during blasting and generate a lot of dust in the process, high-strength CHRONITAL remains form-stable for a long time. As a result, working and viewing conditions improve noticeably and abrasive-related waste quantities and disposal expenses are minimal.
Reduced blast media consumption
Its break resistance is particularly convincing in direct comparison with glass beads or ceramic beads, which are brittle-hard. Thus, users of glass beads with CHRONITAL can reduce their previous blast abrasive consumption to 1-2%.
Large area performance with minimal energy consumption
Its long grain integrity allows the user at the same time a safe and simple blasting process with low working and control requirements. The results and performance achieved are very consistent and easily reproducible. CHRONITAL is therefore ideally suited for use in wheel blast machines. High quantities and large area outputs can thus be produced particularly economically and with minimum energy consumption.
Reusable and thus resource-saving
Manufactured from high-quality input materials, CHRONITAL is 100% recyclable. Its long durability and complete recyclability make it a resource-saving and sustainable blast media in a modern circular economy.