BROWSE BY INDUSTRY BROWSE BY APPLICATION BROWSE BY PRODUCT TYPE
axial; torsional; materials; biomaterials; orthopaedic devices; fatigue stresses




Axial / Torsional Test Systems

Exceptional flexibility and durability

Perform a full range of axial/torsional evaluations on materials, components and implantable devices with flexible test systems from MTS.

Whether you are investigating material response to multiaxial static and fatigue stresses, evaluating the durability of medical devices, or applying complex loads to orthopaedic constructs, MTS axial/torsional test systems deliver the quality, flexibility and long-term reliability you require.

This extensive range of systems includes tabletop and floor-standing configurations for low-force and high-force applications, as well as complex orthopaedic kinematics studies.

Combined with intuitive controls and application software and a complete selection of accessories, MTS axial/torsional systems can easily meet a wide variety of dynamic testing and simulation needs.
Biomedical Subsystems - Graphic - Short Description

Biomedical Subsystems

Modular and scalable MTS Spine, Hip and Knee test subsystems facilitate testing of both skeletal tissue and orthopaedic constructs, allowing for the measurement of pure bending, axial loads, and a combination of twisting torsion or flexural motions.

hydraulic wedge grip; hydraulic collet grip; Pneumatic grip; fracture mechanics;bend

Grips, Fixtures & Accessories

Choose from a vast array of high-performance accessories to configure the ideal setup for your testing needs.

Extensometer; Axial; biaxial; laser; video; contacting; non-contacting; displacement; measurement

Extensometers

The world’s most comprehensive selection of durable and highly precise extensometers, ideally suited for the full range of material tests and applications.

QUESTIONS?

Small Phone Image
We recognize that certain questions require a live conversation, and we're eager to talk to you.  Please contact us now.
> EMAIL US
> CONTACT YOUR LOCAL MTS OFFICE