New 3D Stick-Slip test rig enables the realistic simulation of dynamic excitation forces and relative motions in 3-axes. Repeatable high-resolution friction force measurements and analysis of stick-slip, wear and spring constants open up new dimensions in Stick-Slip testing…
Material Testing
New 3D Stick-Slip test rig enables the realistic simulation of dynamic excitation forces and relative motions in 3-axes. Repeatable high-resolution friction force measurements and analysis of stick-slip, wear and spring constants open up new dimensions in Stick-Slip testing…
NEWS
Date: 29.03.2025
New light weight 1000N inertial shaker
The OMEGA 1050 modal and inertial shaker is a cutting-edge device that sets new standards in vibration analysis. Its outstanding efficiency enables it to generate high excitation forces of up to 1000N sine peak at a very low weight of only 35kg. This makes it particularly suitable for applications where mobility is crutial such as vibration analyses on bridges and buildings, seismic simulations or geological investigations.
Date: 14.05.2024
Stick-Slip testing according to VDA 230-206
To analyse the stick-slip risk in accordance with VDA 230-206, an optional probe attachment with integrated leaf spring and standard-compliant sample holders in semi-circular and flat designs is available. The parameters required by the standard, such as maximum acceleration gmax, pulse rate, coefficient of static and dynamic friction and the optionally usable risk priority number (RPN), are calculated and displayed in the software.
Date: 15.01.2024
New 2D Tribo-Acoustic test bench
The 2D Tribo-Acoustic Test Bench enables the analysis of friction, friction noise and sliding noise, damping properties, abrasion and wear of a wide range of materials on the basis of highly dynamic, real relative motions and normal forces. Stick-slip tests based on specified RANDOM excitation profiles (PSDs, e.g. in accordance with GMW 16321) and tests with constant relative speeds and normal forces (VDA-230-206, FORD CETP01.05) are also possible.
Date: 09.08.2023
3D Shaker for Excitation in x/y/z
Our compact and quiet 3D shakers allow excitation to be performed in the x, y and z axes. Noise-critical excitation states can be accurately replicated in the laboratory in multiple axes. By adding two additional shakers, simultaneous excitation in x, y and z axes is possible, as well as simultaneous excitation in up to 5 axes in vertical pitch & roll mode.
NEWS
Date: 29.03.2025
New light weight 1000N inertial shaker
The OMEGA 1050 modal and inertial shaker is a cutting-edge device that sets new standards in vibration analysis. Its outstanding efficiency enables it to generate high excitation forces of up to 1000N sine peak at a very low weight of only 35kg. This makes it particularly suitable for applications where mobility is crutial such as vibration analyses on bridges and buildings, seismic simulations or geological investigations.
Date: 10.03.2024
Open Day 2024 with many new products
To analyse the stick-slip risk in accordance with VDA 230-206, an optional probe attachment with integrated leaf spring and standard-compliant sample holders in semi-circular and flat designs is available. The parameters required by the standard, such as maximum acceleration gmax, pulse rate, coefficient of static and dynamic friction and the optionally usable risk priority number (RPN), are calculated and displayed in the software.
Date: 15.01.2024
New 2D Tribo-Acoustic test bench
The 2D Tribo-Acoustic Test Bench enables the analysis of friction, friction noise and sliding noise, damping properties, abrasion and wear of a wide range of materials on the basis of highly dynamic, real relative motions and normal forces. Stick-slip tests based on specified RANDOM excitation profiles (PSDs, e.g. in accordance with GMW 16321) and tests with constant relative speeds and normal forces (VDA-230-206, FORD CETP01.05) are also possible.
Date: 09.08.2023
3D Shaker for Excitation in x/y/z
Our compact and quiet 3D shakers allow excitation to be performed in the x, y and z axes. Noise-critical excitation states can be accurately replicated in the laboratory in multiple axes. By adding two additional shakers, simultaneous excitation in x, y and z axes is possible, as well as simultaneous excitation in up to 5 axes in vertical pitch & roll mode.