HHSM

With over 55 years of experience, TNO provides practical Naval shock expertise and knowledge for a world-wide customer base. The test facilities at the TNO Structural Dynamics lab have been developed to simulate the effect of shock loading generated from a non-contact underwater explosion (UNDEX).

The TNO shock machines can be used to meet the requirements from the international Naval standards: BR3021 (incl. NSS1 and NSS2; 1970s, UK), BR8470 (1989, UK), MAP 01-470 (2012, UK), BV043 (1985/1989, DE) and BV0230 (2017, NL/DE).

The TNO heavy-weight horizontal shock machine (HHSM) has a rectangular mounting surface of 3m x 5m. The maximum payload is 10,000kg. Maximum displacements of 60mm can be achieved along with a maximum velocity of 5m/s and a maximum acceleration of 120g. Based on the setup of the HHSM, the pulse duration can vary between 4ms to 20ms.

All values above are indicative and, in the situation where the payload exceeds the capacity, the required pulse duration is shorter or longer, or the required acceleration differs from the one stated above, TNO endeavors to provide solutions.

State-of-the-art instrumentation is used to measure the applied shocks. TNO uses high-accuracy, regularly calibrated piezo-resistive accelerometers. Pressure and strain can also be measured during the shock. For electrical systems, the bounce on contacts and switches can be monitored during the shock event. All tests are filmed using a high speed video camera (6400 fps). The expertise of TNO in instrumentation and post-processing also includes high speed 2D and 3D optical strain (digital image correlation) measurements.

The TNO shock machines satisfy the requirements from the well-known international Naval standards. Furthermore, they can be adjusted to satisfy specific customer’s requirements, including simulating the loading in an above resilient mount environment.

Tests are validated in both the time domain (acceleration, velocity and displacement) and using the Shock Response Spectrum (SRS) approach in the frequency domain. The latter using the qualification criteria from NATO STANAG 4549 (2000, TNO).