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    Strain Gauges

    Strain Gauges

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    Series
    Operating Temperature
    Length - Overall
    Width - Overall
    Resistance Tolerance
    Width - Overall Pattern
    Width - Active
    Strain Range
    Resistance

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    Image Part Number Manufacturer Description Series Operating Temperature Length - Overall Width - Overall Resistance Tolerance Width - Overall Pattern Width - Active Strain Range Resistance
    Manufacturer Image
    		MMF000942 Vishay Precision Group EA-06-062AQ-350/W STRAIN GAGES ( - - - - - - - - -
    Manufacturer Image
    		MMF014326 Vishay Precision Group WK-06-030WT-120 STACKED ROSETTE - - - - - - - - -
    Manufacturer Image
    		MMF315450 Vishay Precision Group C2A-06-031WW-120 STACKED ROSETTE C2A -60 ~ 150°F (-50 ~ 65°C) 0.28" (7.1mm) 0.31" (8.0mm) ±0.6% 0.227" (5.77mm) 0.070" (1.79mm) ±3% 120 Ohms
    Manufacturer Image
    		MMF001195 Vishay Precision Group EA-06-062TT-350/W STRAIN GAGES ( - - - - - - - - -
    Manufacturer Image
    		MMF003361 Vishay Precision Group CEA-06-W250A-350 WELDABLE GAGES CEA -100 ~ 200°F (-75 ~ 95°C) 0.44" (11.2mm) 0.34" (8.6mm) ±0.4% 0.125" (3.18mm) 0.169" (4.30mm) ±5% 350 Ohms
    Manufacturer Image
    		MMF001058 Vishay Precision Group WK-06-062ED-350 STRAIN GAGES (5/ - - - - - - - - -
    Manufacturer Image
    		MMF308037 Vishay Precision Group WA-06-050TG-350 STRAIN GAGES (5/ - - - - - - - - -
    Manufacturer Image
    		MMF311697 Vishay Precision Group EA-09-031RB-120 STRAIN GAGES (5/ - - - - - - - - -
    Manufacturer Image
    		MMF003182 Vishay Precision Group CEA-06-125WT-350 STACKED ROSETTE CEA -100 ~ 150°F (-75 ~ 65°C) 0.42" (10.7mm) 0.42" (10.7mm) ±0.5% 0.325" (8.26mm) 0.180" (4.57mm) ±3% 350 Ohms
    Manufacturer Image
    		MMF001062 Vishay Precision Group EA-06-062EN-350 STRAIN GAGES (5/ - - - - - - - - -

    About Strain Gauges

    Strain gauges are devices designed to measure the deformation or strain in mechanical structures subjected to stress or load. These sensors consist of thin conductive wires or foil patterns bonded to the surface of the material under measurement. As the material deforms under stress, the strain gauge's electrical resistance changes proportionally, allowing the measurement of strain. Strain gauges find applications in structural health monitoring, load cells, force measurement, and material testing for tasks such as stress analysis, fatigue testing, and structural integrity assessment. They offer advantages such as high sensitivity, accuracy, and compatibility with different materials and structural configurations, making them valuable tools in structural engineering, aerospace, automotive, and civil engineering applications.