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Glue these gauges onto a structure to measure strain in a single direction.
Also known as load cells, these sensors measure and track the forces of your equipment by converting them into electrical signals.
View weight measurements from your tension and compression force sensor.
Also known as junction and summing boxes, these hubs combine the measurements of multiple tension and compression force sensors together.
Thinner than a credit card, these force sensors fit into narrow spaces to measure the applied load between two surfaces.
Housing is plastic.
Housing is brass.
These gauges come with a calibration certificate traceable to NIST that states they've passed a test for accuracy.
Check how much force a part can take before it bends, stretches, or breaks.
Measure tension force as well as weight.
Measure the tension of wire or cable.
The large dial makes these gauges easy to read. They measure tension force as well as weight.
Press the side of the gauge tip against an object to record the amount of tension required to move it.
Measure the tension of wire and filament without pausing your operation.
Apply your load directly to the top of these gauges to measure compression force.
Use the included Windows-compatible software to upload measurement data.
Take tension and compression measurements at 0.1% accuracy—the highest accuracy of all our force gauges.
Measure tension force as well as weight. Also known as dynamometers.
Safely view your tension force measurements on a handheld receiver up to 450 ft. away when moving bulk material with cranes and hoists.
Hold fine wire and filament.
Grip paper, film, and thin plastic.
A chuck-style grip with a round opening gets a secure hold on pins.
Good for gripping most shapes and materials.
Grab and pull objects to test their strength. These hooks thread onto the shaft of your force gauge.
Often used on packaging films, food seals, and gloves, these tools test the puncture strength of thin materials.
Check that your products have the right balance of grip and slip. For quality control, these testers are commonly used to measure friction generated by packaging materials such as plastic film and cardboard.
Calculate how hard it is to peel tape off a surface, separate the layers within a laminate, or unfasten a hook and loop.
Measure the force needed to carry out tasks in your facility, such as pushing carts, pulling pallet trucks, or lifting containers.
Stress test an electrical connection to make sure it won't come apart.
Determine if an adhesive or an epoxy creates a strong enough bond on a surface.
Measure the compressive strength of concrete. These testers are often used in the construction industry to assess the quality and integrity of poured concrete.
Finger-tighten the three-jaw chuck onto a torque wrench or screwdriver, then twist either the gauge or tool to check the tool’s accuracy.
Measure the torque output of torque wrenches, screwdrivers, and other hand tools to ensure they deliver the right amount of torque—and check your results on a digital screen.
Place your tool and the included square drive connector on the tester and turn.
Measure the force of hand and non-impact electric torque screwdrivers to keep fasteners from failing due to under or overtightening.
Accurate to within ±1%, these torque testers are often used to check the accuracy of torque wrenches and screwdrivers on assembly lines.
Monitor torque as you apply it—these testers mount between your torque tool and your fastener.
Calibrate torque-limiting power tools such as air-powered and impact drivers.
Measure the twisting force needed to tighten or loosen caps and knobs with these torque testers.
Use these gauges with changeable sensors and square-drive sockets to display, collect, and download torque readings.
Measure and record manually applied torque. These sensors convert torque into an electrical signal that your computer or programmable logic controller (PLC) can read.
Measure your equipment’s pressure and send the data directly to a development board or single-board computer. Also known as transducers, these transmitters convert pressure into an electrical I2C signal and transmit it to your board.
Choose these transmitters when you need reliable pressure monitoring but not high accuracy.
Remotely monitor pressure in general purpose applications such as pumping and compressing systems.
At least four times as accurate as standard pressure transmitters, these transmitters are ideal for use in laboratories and analytical testing applications.
Read pressure directly at the source and send data remotely with one device.
With a pressure range common to most compressed air systems, use these transmitters to monitor your system's air pressure.
Remotely track your system's pressure readings from the convenience of a smartphone or tablet. Good for preventative maintenance and route-based monitoring, these battery-powered transmitters use Bluetooth to alert you when equipment requires your attention.
The diaphragm on these transmitters mounts flush with your system’s connection, leaving no room for thick liquids to clog or harden. They’re often used to monitor pressure in wastewater, paint, and adhesive-dispensing applications.
Fine-tune the pressure range on these transmitters to account for changes in pressure readings over time.
Adhere to safety standards and monitor pressure when working with high concentrations of oxygen.
Safely monitor liquid, gas, and steam pressure in hazardous locations with these transmitters. They meet NEC safety standards, so they protect against an explosion where flammable gases and vapors are present.
For use in sanitary applications such as food processing, these transmitters are 3-A certified.
Monitor and control pressure in portable HVAC systems, hydraulics, and oil and gas equipment. Unlike other pressure transmitters that measure the difference between your system and the atmosphere, these transmitters give measurements relative to zero pressure—regardless of altitude or temperature.
These transmitters automatically compensate for error introduced by vibration as well as temperature fluctuations, so you do not need to program your receiving device to correct for these factors. They convert pressure to an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor pressure or control equipment.
FM approved and CSA certified for use in hazardous locations, these transmitters monitor pressure where combustible fumes may be present.
Ensure proper blade tension.
Make sure blades are straight between your guides.
Measure belt tension up to 2,200 lbs.
Keep an eye on belt tension to minimize vibration, noise, and slippage.
Measure and transmit flow rate, pressure, and temperature of industrial gases, such as air, argon, CO2, and nitrogen, flowing through your system.