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Conductive Rubber Sheet / Stretch Sensor- 200mm x 200mm x 1mm

Adafruit  |  SKU: 4354
£7.99
Tax included, shipping and discounts calculated at checkout.
DESCRIPTION

This rubber sheet is made of the same carbon-black impregnated rubber material that the conductive rubber cord uses. Traditionally it would be used for EMF shielding or conductive gaskets - but it's very fun to play with and makes for an interesting stretch sensor or maybe a conductive material that is soft and conforming.

In a 'relaxed' state, the bulk sheet resistivity is about 70 ohm*mm. As you pull on it, the resistance increases (the particles get further apart). You can stretch the rubber about 50-70% longer than the resting length, so a 6" piece shouldn't be stretched more than 10". Once the force is released, the rubber will shrink back, although it's not very 'fast' and it takes a minute or two to revert to its original length. It's not a true linear sensor, and the resistance may vary from batch to batch, so we consider it a way to measure stretching motion but isn't really precise.

This stuff is fun and comes in a 200mm by 200mm square with 1mm thickness. You can easily cut this material with scissors or a die. You can use it as a conductor or add a 100-ohm resistor as a divider, then use the handy Thermistor tutorial to measure the analogue voltage and convert that back to resistance.

FEATURES
  • Product Dimensions: 200.0mm x 200.0mm x 1.0mm / 7.9" x 7.9" x 0.0"
  • Product Weight: 44.0g / 1.6oz
Conductive Rubber Sheet / Stretch Sensor- 200mm x 200mm x 1mm - Component
Adafruit

Conductive Rubber Sheet / Stretch Sensor- 200mm x 200mm x 1mm

£7.99
DESCRIPTION

This rubber sheet is made of the same carbon-black impregnated rubber material that the conductive rubber cord uses. Traditionally it would be used for EMF shielding or conductive gaskets - but it's very fun to play with and makes for an interesting stretch sensor or maybe a conductive material that is soft and conforming.

In a 'relaxed' state, the bulk sheet resistivity is about 70 ohm*mm. As you pull on it, the resistance increases (the particles get further apart). You can stretch the rubber about 50-70% longer than the resting length, so a 6" piece shouldn't be stretched more than 10". Once the force is released, the rubber will shrink back, although it's not very 'fast' and it takes a minute or two to revert to its original length. It's not a true linear sensor, and the resistance may vary from batch to batch, so we consider it a way to measure stretching motion but isn't really precise.

This stuff is fun and comes in a 200mm by 200mm square with 1mm thickness. You can easily cut this material with scissors or a die. You can use it as a conductor or add a 100-ohm resistor as a divider, then use the handy Thermistor tutorial to measure the analogue voltage and convert that back to resistance.

FEATURES
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