Mecmesin products are broadly classified into Force, Materials, and Torque testing equipment. The mentioned tests are sub-categorized into Compression, Tension, Texture and Torque. The subcategories are further differentiated to cover every detailed characteristic and behaviour of the product and materials involved.
Every test result is derived based on calculations such as Chord Modulus, compressive deformation, compressive modulus, elongation at break, secant modulus, shear modulus, strain at maximum stress, tangent modulus, tensile deformation, ultimate compressive strength, ultimate tensile strength, yield point, and Young’s Modulus.
Materials possess different characteristics based on their properties. The end application determines the best suited material. Materials subjected to deformation will be considered for products as they can attain the desired shape. Certain materials are meant for tools. This approach is applicable to both metals and non-metals.
Material testing is an integral part of the manufacturing process as it evaluates the maximum capacity of every material to withstand the load and force. Especially in the manufacturing industry, both tools and products are subject to undergoing testing in-between every process.
Mecmesin provides the finest test equipment to suit every material based on its properties and its end applications. As referred to earlier, Mecmesin products are categorized into materials, force and torque testing based on the requirements.
Materials Testing
Material testing is performed to find the physical properties of different materials to evaluate the capacity of products to withstand operations.
Especially in metal forming processes, metals that are subjected to deformations end up breaking at high loads and forces beyond their capacity.
Apart from metals, material testers lend themselves to tensile and compressive tests on products such as rubber, plastics, wood, fabrics, composites, and geomaterials.
Material testing is recommended to calculate the lifecycle of every product and to avoid breakage that is directionally proportional to the cost, energy, and time.