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| 1. Working Principle | |
| 2. Types of Strain Gauges | |
| 3. Gauge Factor | |
| 4. Temperature Compensation | |
| 5. Wheatstone Bridge Configuration | |
| 1. Structural Health Monitoring | |
| 2. Load Cells | |
| 3. Aerospace Applications | |
| 4. Biomedical Applications | |
| 5. Automotive Testing | |
| 6. Robotics and Automation |
Strain gauges are indispensable sensors that provide critical measurements of strain and stress across various industries. Their applications span from structural health monitoring to biomedical devices, underscoring their significance in enhancing safety, performance, and innovation. As technology evolves, the integration of strain gauges with IoT and smart systems is expected to further expand their functionality and application scope, paving the way for more advanced monitoring and control solutions in the future.
| 1. Working Principle | |
| 2. Types of Strain Gauges | |
| 3. Gauge Factor | |
| 4. Temperature Compensation | |
| 5. Wheatstone Bridge Configuration | |
| 1. Structural Health Monitoring | |
| 2. Load Cells | |
| 3. Aerospace Applications | |
| 4. Biomedical Applications | |
| 5. Automotive Testing | |
| 6. Robotics and Automation |
Strain gauges are indispensable sensors that provide critical measurements of strain and stress across various industries. Their applications span from structural health monitoring to biomedical devices, underscoring their significance in enhancing safety, performance, and innovation. As technology evolves, the integration of strain gauges with IoT and smart systems is expected to further expand their functionality and application scope, paving the way for more advanced monitoring and control solutions in the future.
