In the cable wire manufacturing industries, many types of components and accessories are produced to fulfil the requirements of different applications. This production must ensure high quality as in the absence of that electronic goods can experience frequent breakdowns and can even lead to fatal accidents and horrible consequences. There are various aspects of wires which are tested under controlled lab conditions to avoid any such future damages to consumers. In this blog section, we will discuss one of the most common testing Instrument used for quality assurance of wires, i.e. Tensile testing machine.

Quality assurance of cable wires

One of the major product that is produced in the electronics manufacturing industries and requires special attention is the cable wire. Numerous cable wire industries ensure that they offer high-quality of cables to their customers but how can the quality of cables be determined? The quality of the cables can be evaluated by judging the properties of the material by performing several types of test on it. The various properties of cables that help to judge the quality of the materials include tensile strength, twist strength, ductility, heat resistance etc. All the properties of cable wires can be measured using high-quality testing instruments. One of the mentioned properties that severely affect the quality of the cables is ductility. The ductility of the cables can be measured by testing the tensile strength of the materials.

Tensile Tester

The tensile strength of cables can be measured using a highly effective testing machine known as Tensile Testing Machine present by Labtiger. The testing instrument measures the actual strength that a cable wire can tolerate to its maximum when it is subjected to sufficient amount of tensile stress or elongation. Testing the tensile strength of cables is the best methodology that measures the strength and working life of the products and helps to determine that how much force, pressure or tension a cable can bear to its maximum.

Key features:

  • Advanced load sensor sensing through advanced electronics.
  • Highly sensitive load sensor with linearity feature and repeatability
  • Cross head travel length: 700mm grip to grip ( with standard vice type grip)
  • Single column rugged structure
  • Safety limit switches for over travel safety
  • Hardened lead screws for frictionless movement
  • Load cell calibrated by NABL approved proving ring/dynamometers
  • Highly accurate micro-controller based system controls
  • Peak Hold facility available (Max. value save in memory)
  • Bright LED display
  • Immediate analysis of results after test with complete accuracy & precision
  • Feather touch controls

For more information, kindly contact our team.