Have you ever wondered how to separate white feldspar from white quartz? If so, AI optical sorting machines offer an amazing solution.
With these advanced machines, separating white feldspar from white quartz has never been easier. Here's how it works:
Before production, build a model for white quartz and white feldspar separately using 10,000 images with different angles. The machine needs 30 minutes for self-training to learn the properties.
Processing:
Optical sorting machines utilize CCD sensors to detect subtle differences in the optical properties of minerals. The machine can distinguish between white feldspar and white quartz due to their slightly different optical properties.
The minerals are fed into the machine and scanned by CCD sensors as they pass along a high-speed conveyor belt at a rate of 3 meters/sec. The sensors analyze each particle in real-time for differences as small as 0.02 mm².
The machine then separates the white feldspar from the white quartz using pre-programmed settings with the MINGDE algorithm. The system transforms optical signals into electronic signals and orders air valves to inject the white feldspar into separate collection bins. This process results in complete separation of the minerals.
If you work in a related field, AI optical sorting machines are worth considering. They revolutionize the process of separating white feldspar from white quartz and are also useful in many difficult mineral sorting projects that traditional color sorters cannot handle, making our lives easier.By utilizing these modern and innovative machines, we can save time and resources while ensuring that only the desired minerals are sorted. This is a significant win for sustainability!