Dynapac SEISMIC Asphalt technology revolutionizes asphalt compaction by automatically adjusting vibration frequency to match the material’s natural frequency. This intelligent system maximizes compaction efficiency, reduces fuel consumption, and extends equipment life—all while delivering superior pavement quality and noticeably improved operator comfort from lower vibration and noise fatigue.
Equipment Available with SEISMIC Asphalt technology:
Dynapac CC2200 – CC6200 VI (Tandem Asphalt Rollers)
- Operating weight: 9,900 – 27,700 lbs
- Drum width: 59 – 84 inches
- Designed for highway projects, urban roads, and large asphalt surfaces
- SEISMIC Asphalt optimizes performance based on asphalt stiffness, reducing over-compaction risk
Dynapac CO2200 – CO6200 VI (Oscillatory Tandem Rollers)
- Combination of oscillation and SEISMIC Asphalt technology
- Ideal for sensitive areas like bridge decks, joints, and thin asphalt layers
- Minimizes material displacement while ensuring proper density
Brandon Noel
SEISMIC Asphalt technology offers a range of benefits that enhance asphalt compaction efficiency. Its automated frequency adjustment allows sensors to detect material properties and dynamically adapt vibration for optimal performance. This reduces the required passes, leading to significant fuel savings and lower emissions. Additionally, by minimizing mechanical stress, SEISMIC Asphalt helps extend the lifespan of the equipment, reducing maintenance costs over time. Most importantly, it ensures superior compaction quality, delivering consistent density across all asphalt layers for durable, high-performing roads.
- Simple – set it and forgot it, it’s automatic
- Effective – compaction performance where and when it’s needed
- Intelligent – sensors and software intelligence drive the system
- Savings – save up to 25% fuel and time with optimal compaction
- Maintenance – extended life of drum components from less wear and tear
- Innovation – it’s simple, but highly effective
- Change of Perception – it just feels different … lower noise and vibrations for the operator
