#08: BepiColombo Composite Spacecraft Vibration Testing
17 August 2012 16:45The BepiColombo Structural and Thermal Model test campaign has passed another milestone with the completion of sine vibration testing at qualification level along all three spacecraft axes.
One of the design drivers for any space mission is the severe mechanical and acoustic environment to which a spacecraft is exposed during launch. Ensuring that every subsystem will maintain nominal performance after this exposure is an important part of every test campaign. The Structural and Thermal Model (STM) of the BepiColombo Mercury Composite Spacecraft (MCS), the configuration in which the spacecraft will launch and travel to Mercury, has now passed the series of tests relating to vibration. The tests were conducted using specialist equipment at ESA's European Space Research and Technology Centre (ESTEC) in Noordwijk, the Netherlands.
Sinusoidal vibration testing along the Z-axis of the spacecraft stack, which is vertical in both the launch and test configurations, was performed in early July using the ESTEC Test Centre QUAD shaker. This is the most powerful electrodynamic shaker at ESTEC and consists of a 3.3 × 3.3-metre magnesium alloy 'head expander' or table, fitted on top of four 160 kN electrodynamic exciters that move the table up and down. The QUAD shaker is capable of producing sinusoidal accelerations of up to 20 g with a test item mass of up to 10 000 kg and can operate over the frequency range 3 Hz to 2 kHz.
As was the case with previous mechanical tests, the MCS was craned from its Multi-Purpose Trolley (MPT) onto the shaker table, where its Vibration Test Adapter (VTA) had already been mounted, without the sunshield attached. This allows access to the lifting points on the Mercury Planetary Orbiter (MPO); the topmost element of the stack, the Mercury Magnetospheric Orbiter (MMO), is designed to be lifted alone, not as a structural element of the MCS stack. The sunshield was re-attached before the tests commenced.
The MCS was fitted with accelerometers at important points on its structure, to measure the displacements induced by the vibrations. The first test run was conducted at a low vibration level and spanned the frequency range from 3 Hz to 100 Hz; this low-level test was used to detect unexpected resonances that might cause damage at qualification level. With this successfully completed, a test from 5 Hz to 100 Hz at qualification level was conducted.
X- and Y-axis tests
Sinusoidal vibration testing along the X- and Y-axes of the spacecraft stack, which lie in the horizontal plane in both the launch and test configurations, was performed in late July using the ESTEC Test Centre Multishaker. This consists of a slip table, onto which the spacecraft under test is mounted, and a pair of 160 kN electrodynamic exciters that vibrate the table and spacecraft. The Multishaker is capable of producing sinusoidal accelerations of up to 19 g with a test item mass of up to 10 000 kg and can operate over the frequency range 3 Hz to 2 kHz.
The X- and Y-axis testing was essentially a repeat of the process used for the Z-axis tests, with the spacecraft stack being rotated through 90° after one cycle of testing to address the second axis.