Load cells are an integral part in a force measurement system. Understanding load cell terminology, common sizing techniques, and how they function will help you choose the most appropriate load cell for your application, which will help prevent accidental damage due to an incorrect selection.
Computers and software play a major role in force measurement and quality control. Whether in the engineering lab, quality control inspection area, receiving inspection or on the production floor, the use of computers and measurement software are beneficial to product quality and production efficiency.
Using readily available tools such as graphs, tolerances, comments, and test criteria ensures that the required tensile information is on hand when needed.
The load cell sensor is arguably the most important component in a force measurement or material testing system’s ability to provide accurate, precise and valid measurements. A sensor’s accuracy is often the primary characteristic that is used to specify a load cell sensor for a given application.
Tensile testing is arguably the most common test method used in both force measurement and material testing. Tensile testing is used primarily to determine the mechanical behavior of a component, part or material under static, axial loading.