Innovative Crack and Position
Monitoring
Cost-efficient maintenance
with maximum safety
Monitoring crack widths is essential for the safety and longevity of structures. It enables the condition to be recorded, the development of cracks to be predicted, causes to be identified and maintenance to be planned.
Our IoT-Solution Crack Monitoring records dynamic influences on cracks and important dynamic parameters of the structure as well as material fatigue. Surface crack detection helps to evaluate repairs and recognize problems such as overloading or reinforcement breakage at an early stage.
- AI analyses and forecasts
- Early detection of potential problems
- Extended service life through predictive maintenance
- No on-site measuring operations necessary
- Precision and speed on a new level
Our Features
Crack Width
Simple and safe installation for crack width measurement on bridges, retaining walls, buildings and rock formations.
Multiple Crack Width
Efficient monitoring of multiple cracks up to 200cm.
Displacements In Bearings & Structural Movements
Measure and monitor all relevant movements quickly and easily.
Vibration Amplitude
The determination of the maximum vibration amplitudes enables the analysis of the dynamic behaviour of structures, the effects of heavy traffic and the analysis (e.g. crack opening) due to heavy transport.
Impulse Events
Permanent measurement enables the detection and analysis of impulse events, which often only occur in the millisecond range but cause enormous loads.
24 bit / 1.49 Nanometer
Highest resolution (1.49nm) and repeatability (10μm) for precise and reliable measurements.
Combine
All Rocket sensors can be combined with crack measuring. For example, with our high-precision inclinometer and monitor the inclination of piers with an accuracy of +/-0.00028°.
Compensate
Up to 6 sensors for material temperature and humidity in combination with our AI functions offer optimum analyses as well as easily processed data and results!
Versatile Applications
Monitoring and detection
of structural weaknesses with AI temperature compensation
Strain measurements for determining utilisation, structural stresses, strains/compressions and loads on components
Determination of the stress range due to dynamic loading (also reinforcement) for assessment of the risk for fatigue