Construction industry: Crushing concrete, bricks, asphalt and other construction waste for recycling.
Mining sector: Primary or secondary crushing of small-sized ores and coal.
Agricultural applications: Grinding straw, feed and other organic materials.
Laboratory research: Sample preparation, mineral analysis and other fine crushing requirements.
1.Small size & portability
The design is compact and the weight is light (some medical models weigh only a few kilograms). It is easy to carry or move, suitable for bedside operations or field work.
2. High Precision & Low Invasive
Medical field (such as urology):
By using technologies such as laser, ultrasound or pneumatic ballistic, the stones can be precisely targeted and focused, thereby reducing the damage to the surrounding tissues.
It can be used in conjunction with endoscopes to facilitate minimally invasive surgeries.
Industrial field: Used for crushing precise materials (such as in ceramic and gemstone processing), to avoid extensive damage.
3. Efficient crushing capability
With concentrated energy, it can quickly crush hard targets (such as kidney stones, ureteral stones or concrete blocks). Some devices have a single treatment success rate of over 90%.
4. Multi-technology Adaptation
Common gravel crushing technologies:
Extracorporeal Shock Wave Lithotripsy (ESWL): Non-contact method, using shock waves transmitted through a water bag.
Holmium laser lithotripsy: Suitable for high-hardness stones, and it can also stop bleeding simultaneously.
Air pressure ballistic stone crushing: Mechanical energy impact, low cost.
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