i want a sensor for that . could please suggest me a sensor for that
Sensor Suggestion: Piezoelectric Accelerometer
Why: Captures vibration and amplitude under impact stress accurately.
For instance, the lab-grade PCB 352C33 or the inexpensive MPU6050 with Arduino. Sensor Suggestion: Piezoelectric Accelerometer
Why: Captures vibration and amplitude under impact stress accurately.
For instance, the lab-grade PCB 352C33 or the inexpensive MPU6050 with Arduino.
To analyze amplitude variation in rubberized concrete under impact, use piezoelectric accelerometers (e.g., PCB 352C33) to measure vibration, and strain gauges (e.g., Vishay CEA series) to monitor deformation. For advanced, full-field analysis, consider a Digital Image Correlation (DIC) system. Pair sensors with a high-speed data acquisition system (≥10 kHz). Accelerometers track vibration amplitude, while strain gauges capture deformation response, allowing you to assess damping and energy absorption properties of rubberized concrete.
- impact analysis in rubberized concrete, piezoelectric accelerometers ( PCB Piezotronics) are ideal for measuring vibration amplitudes and stress wave propagation. Strain gauges help monitor localized deformation and crack initiation, while high-speed cameras with DIC track full-field displacement. Acoustic emission sensors (PAC) detect micro-fractures, and laser Doppler vibrometers provide non-contact vibration profiling. For embedded monitoring, fiber Bragg grating (FBG) sensors measure strain and temperature. Select accelerometers for transient impact measurements, strain gauges for ductility studies, and acoustic emission (AE) sensors for fracture analysis. These sensors collectively assess dynamic response, damping, and failure modes in rubberized concrete under impact.
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