Duratt® TT series testing machines utilize high-performance linear motors and control systems with proprietary intellectual property rights, enabling the simultaneous realization of high performance, high frequency, high precision, and high durability in a single machine. They are widely used for fatigue durability testing of materials and components, as well as other high-precision mechanical performance tests, including relaxation, creep, rapid deformation, and high-speed tensile testing.
Product Introduction
Duratt® TT series testing machines utilize high-performance linear motors and control systems with proprietary intellectual property rights, enabling the simultaneous realization of high performance, high frequency, high precision, and high durability in a single machine. They are widely used for fatigue durability testing of materials and components, as well as other high-precision mechanical performance tests, including relaxation, creep, rapid deformation, and high-speed tensile testing.
Duratt® TT series desktop test platforms are optimized for low-load, low-frequency testing scenarios of materials and components. The TT series testing machines are very easy for users to flexibly match various fixture environment cells and multiple actuators to form a simple multi-axis testing system according to the test conditions. For example, if the user adds an optional yoke motor, it can be configured as a tension-yoke composite test system, and if an additional axial actuator is added, it can be configured as a biaxial planar tensile system. The TT series desktop dynamic test platform can provide small loads, high-precision dynamic loading testing capabilities at different levels from 250N to 500N, and has a wide range of applications.
Typical TT250/TT500 applications include:
- Construction of dynamic testing platform for small load components such as buttons, screens, wiring harnesses, cables, and circuit boards
- Fiber (such as carbon fiber monofilament) tensile strength test (high precision required)
- Mechanical strength and fatigue testing of biomaterials such as hydrogels
- Dental Implant Fatigue Testing
Metal self-tapping screw self-tapping performance and screw-in and pull-out test (torsion motor required)
Planar biaxial in-situ tensile test (requires multiple motors to be configured relative to each other)
Other small load components and materials high-precision dynamic and static testing
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If you have any specific requirements not fully addressed by the above, please do not hesitate to contact us.
We are always happy to look at the customisation of existing equipment or design and build projects to a customer’s specifications.