Strain Gauges

Results: 4
Manufacturer
Adafruit Industries LLCMicro-Measurements (Division of Vishay Precision Group)
Series
-C5K
Packaging
BagBoxBulk
Pattern Type
-LinearRectangular Rosette
Strain Range
±1.5%-
Resistance Tolerance
±0.2%±0.3%±0.5%-
Length - Active
0.014" (0.36mm) per section0.030" (0.76mm)-
Length - Overall Pattern
0.071" (1.81mm)0.095" (2.41mm)-
Length - Overall
0.09" (2.2mm)0.12" (3.1mm)-
Width - Active
0.012" (0.30mm) per section0.063" (1.60mm)-
Width - Overall Pattern
0.063" (1.60mm)0.143" (3.63mm)-
Width - Overall
0.10" (2.6mm)0.15" (3.9mm)-
Operating Temperature
-100 ~ 400°F (-75 ~ 205°C)-
Stocking Options
Environmental Options
Media
Marketplace Product
4Results
Showing
of 4
Compare
Mfr Part #
Quantity Available
Price
Series
Package
Product Status
Pattern Type
Strain Range
Resistance
Resistance Tolerance
Length - Active
Length - Overall Pattern
Length - Overall
Width - Active
Width - Overall Pattern
Width - Overall
Operating Temperature
117
In Stock
1 : ¥544.01000
Box
Box
Active
Rectangular Rosette
±1.5%
350 Ohms
±0.5%
0.014" (0.36mm) per section
0.071" (1.81mm)
0.09" (2.2mm)
0.012" (0.30mm) per section
0.143" (3.63mm)
0.15" (3.9mm)
-100 ~ 400°F (-75 ~ 205°C)
36
In Stock
1 : ¥232.90000
Box
Box
Active
Linear
±1.5%
350 Ohms
±0.3%
0.030" (0.76mm)
0.095" (2.41mm)
0.12" (3.1mm)
0.063" (1.60mm)
0.063" (1.60mm)
0.10" (2.6mm)
-100 ~ 400°F (-75 ~ 205°C)
4543
4543
STRAIN GAUGE LOAD CELL - 4 WIRES
Adafruit Industries LLC
0
In Stock
Check Lead Time
1 : ¥33.58000
Bulk
-
Bulk
Active
-
-
-
-
-
-
-
-
-
-
-
0
In Stock
Check Lead Time
1 : ¥232.90000
Bag
Bag
Active
Linear
±1.5%
350 Ohms
±0.2%
0.030" (0.76mm)
0.095" (2.41mm)
0.12" (3.1mm)
0.063" (1.60mm)
0.063" (1.60mm)
0.10" (2.6mm)
-100 ~ 400°F (-75 ~ 205°C)
Showing
of 4

Strain Gauges

Strain gauges are devices used to measure strain forces on materials. The most common consists of an insulating flexible backing with a metallic foil pattern. The gauge is attached to an object with a suitable adhesive. As the object is deformed, the flexible backing and foil are deformed, causing a change in electrical resistance. This resistance change is usually measured with a Wheatstone bridge.