Load Cell Material

Most strain gauge load cells work in very similar ways but may vary in size material and mechanical setup which can lead to each cell having different max loads and sensitivities that they can handle.

Load cell material.

The stainless alloy used is 17 4 ph. The load cells use a piezo electric material like silicon disk that generates electricity in proportion to the pressure applied due to weight loaded. Starrett offers a full range of precision load cell sensors for material testing force analysis and force measurement applications. Although there are many varieties of force sensors strain gauge load cells are the most commonly used type.

The cell is supplied with an integral 20 meter cable. Structurally a load cell has a metal body to which strain gauges have been secured. Except for certain laboratories where precision mechanical balances are still used strain gauge load cells dominate the weighing industry. That means it is very sturdy but also minimally elastic.

Load cells generally consist of a spring element on which strain gauges have been placed. It is hermetically sealed to provide better environmental protection. The cell is recommended for tank truck track and hopper type industrial applications. Compression load cell compression load cell description model 90210 is a strain gage based multicolumn compression type of load cell.

The body is usually made of aluminum alloy steel or stainless steel which makes it very sturdy but also minimally elastic. The electricity generated is measured to indicate the weight through a calibration process. A load cell or loadcell is a transducer which converts force into a measurable electrical output. Starrett load cells are compliant with ieee 1451 4 and meet or exceed astm e4 bs 1610 iso 7500 1 and en 10002 2.

The third material used for load cell manufacturing is stainless steel. This elasticity gives rise to the term spring element referring to the body of the load cell. Aluminum load cells are limited by their low capacity range and should not be exposed to wet or chemical conditions. Measurement accuracies of 0 5 of reading down to 1 100 of sensor capacity may be achieved.