The Strain Gauge Anchor Load Cells SGLC-7000 are precision instruments designed to monitor tension forces in strand or rock anchors used in tunnels, retaining walls, slopes, and underground civil projects. Utilizing strain gauge technology, they deliver highly accurate, repeatable, and drift-free measurements, making them ideal for long-term anchor load monitoring and structural safety assessment.
These load cells measure strain directly on anchors and convert it into electrical signals, providing engineers with reliable real-time insight into load distribution, stress changes, and potential structural issues. The SGLC-7000 is resistant to vibration, temperature fluctuations, and environmental factors, ensuring consistent performance even in harsh underground or civil works environments.
Engineers rely on the Strain Gauge Anchor Load Cells SGLC-7000 to validate structural integrity, monitor load redistribution, and enable proactive maintenance. Integration with dataloggers and automated monitoring systems allows continuous data collection, reducing the need for manual inspections and improving efficiency.
Key Features:
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High-accuracy strain gauge technology for anchor load measurement
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Drift-free, stable long-term performance
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Suitable for tunnels, retaining walls, slopes, and underground works
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Resistant to vibration, temperature, and environmental variations
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Compatible with dataloggers and automated monitoring systems
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Durable construction with minimal maintenance
Advantages:
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Reliable monitoring of anchor tension forces
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Accurate and repeatable measurements for confident structural assessment
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Early detection of stress redistribution or anchor issues
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Supports automated monitoring, reducing manual inspection needs
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Versatile solution for various geotechnical and civil engineering applications
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Ensures dependable performance in challenging field conditions
The Strain Gauge Anchor Load Cells SGLC-7000 provide engineers with a precise, durable, and trustworthy solution for monitoring anchor forces, ensuring long-term stability and safety of critical structures.
