±10 kN ±100 Nm Linear-Torsion Pneumatic Wedge Action Grips

Designed to suit ElectroPuls® 10000 systems, the 2742-315 pneumatic wedge action grips are suitable for tension, compression, torsion and reverse-stress testing on a wide range of specimens and materials.The grips are pneumatically operated directly from the machine handset and the open-fronted design provides easy specimen insertion, positioning and clamping.

Principle of OperationThe single-acting wedge action principle of these grips is designed to clamp a specimen without applying a compressive load, which could cause a specimen to buckle. The retracting movement of the grip bodies helps to reduce compressive loads that are normally caused when clamping specimens.

The open front design permits quick and easy changing of specimens and jaw faces. Jaw faces optimize gripping performance whilst the serrated faces are designed to minimize damage to the specimen surface.
Application Range
  • Types of loading: Tension, compression, torsion or reverse-stress testing
  • Specimen geometries: Flat or round specimens
  • Specimen material: Metallics, plastics, composites, biomaterials
  • Temperature range: Ambient only


  • Dynamic Linear Capacity: ±10 kN (±2250 lbf)
  • Dynamic Torque Capacity: Up to ±100 Nm (±880 lbf.in)
  • Independent upper and lower jaw faces opening and closing via the handset
  • Enhanced usability thanks to software feedback of grip status
  • Enhanced control and repeatability of specimen gripping
  • Suitable for linear and torsion, including full reverse-stress dynamic testing
  • Open-fronted design for quick and easy specimen insertion from the front
  • Self-tightening, moving body wedge design eliminates slippage and prevents specimen loading
  • Interchangeable jaw faces for gripping different materials and specimen geometries and sizes
  • Secure operation thanks to built-in adjusters that ensure there is no rotary backlash
  • Uses standard compressed-air supply
  • Requires no attachment kits when mounting to ElectroPuls E10000 systems

For more information, download the literature

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