Achieving Optimal Dynamic Rotor Balancing for the Nokamic Mulcher

Old friend - mulcher Nokamic .  Every time balance it succeeds very well.


The aim of this case study is to highlight the success in achieving consistent and effective dynamic rotor balancing for the Nokamic Mulcher using the Balanset-1A portable balancing machine.

Vibration issues can pose a significant problem for the overall efficiency and lifespan of mulchers. Consistently achieving low vibrations in rotors is crucial for optimized performance. The Nokamic Mulcher has been a recurring client, and each balancing session has resulted in excellent performance outcomes.

For dynamic rotor balancing, the Balanset-1A was employed, a device renowned for its precision and efficiency. The portable balancing machine's two-plane dynamic balancing feature is pivotal in achieving the desired balance.

Each balancing session for the Nokamic Mulcher has resulted in impressively low vibration values of 0.2 and 0.3 mm/s. These results validate the effectiveness of the Balanset-1A device in achieving dynamic rotor balancing.


  1. Optimized Performance: With such low vibration values, the Nokamic Mulcher operates at its peak efficiency.
  2. Extended Equipment Lifespan: Minimal vibrations result in reduced wear and tear, thereby extending the equipment's lifespan.
  3. Reduced Operational Costs: Lower vibrations equate to less stress on mechanical components, thus reducing the need for frequent maintenance or replacements.
  4. Energy Efficiency: Lower vibration rates generally correlate with more effective energy usage, thus contributing to overall cost savings.

The Balanset-1A has proven to be an invaluable tool in achieving consistently low vibrations for the Nokamic Mulcher. The consequent benefits in operational efficiency, reduced maintenance costs, and extended lifespan make dynamic rotor balancing an essential part of machinery upkeep. The success with the Nokamic Mulcher serves as a compelling testament to the efficacy of the Balanset-1A in reducing vibrations and enhancing machine performance.