Measurements
Table of Contents
1 Experimental conditions
- Measurement made in the experiment hutch
- FS=256Hz
- Made by Marc Lesourd on the 12 of October 2018
Date | 2018-10-12 |
Sensors | Geophones |
Excitation | Instrumented Hammer |
Location | Experimental Hutch |
Goal:
- The station is now installed on the experimental hutch with a glued granite (final location).
- The station is identified again.
2 Measurements procedure
8 Geophone are used (see table 3):
Natural Frequency [Hz] | 4.5 |
Weight [g] | 140 |
Sensitivity [V/(m/s)] | 31.3 |
Natural Frequency [Hz] | 1 |
Weight [g] | 2150 |
Sensitivity [V/(m/s)] | 276.8 |
The structure is excited using an instrumented hammer with impacts on (see table 4):
- Marble
- Ty
- Hexapod
3 Measurement Channels
Les fichiers xxx_raw sont sans traitement dans le domaine temporel (environ 10 impacts par fichier)
Ch. nb | Element | Location | Direction |
---|---|---|---|
1 | Geophone L-4C | Marble | Z |
2 | Geophone L-28LB | Ty | Z |
3 | Geophone L-28LB | Tilt | Z |
4 | Geophone L-28LB | Hexa | Z |
5 | Geophone L-28LB | Marble | H |
6 | Geophone L-28LB | TY | H |
7 | Geophone L-28LB | Tilt | H |
8 | Geophone L-28LB | Hexa | H |
9 | Hammer | Variable | Variable |
4 Experiments
Meas. nb | Location | Direction |
---|---|---|
1 | Marble | Y |
2 | Ty | Y |
3 | Hexa | Y |
4 | Marble | Z |
5 | Ty | Z |
6 | Hexa | Z |
7 | Marble | X |
8 | Ty | X |
9 | Hexa | X |
5 Data Analysis
5.1 Loading of the data
load('./data/freq_frf.mat'); load('./data/frf_hexa_x.mat'); load('./data/frf_hexa_y.mat'); load('./data/frf_hexa_z.mat'); load('./data/frf_marble_x.mat'); load('./data/frf_marble_y.mat'); load('./data/frf_marble_z.mat'); load('./data/frf_ty_x.mat'); load('./data/frf_ty_y.mat'); load('./data/frf_ty_z.mat'); load('./data/phs_hexa_x.mat'); load('./data/phs_hexa_y.mat'); load('./data/phs_hexa_z.mat'); load('./data/phs_marble_x.mat'); load('./data/phs_marble_y.mat'); load('./data/phs_marble_z.mat'); load('./data/phs_ty_x.mat'); load('./data/phs_ty_y.mat'); load('./data/phs_ty_z.mat');
5.2 test
figure; hold on; plot(freq_frf, abs(ReIm7(:, 5))./(2*pi*freq_frf), 'DisplayName', 'Marble') plot(freq_frf, abs(ReIm8(:, 6))./(2*pi*freq_frf), 'DisplayName', 'Ty') % plot(freq_frf, abs(ReIm5(:, 3))./(2*pi*freq_frf), 'DisplayName', 'Tilt') plot(freq_frf, abs(ReIm9(:, 8))./(2*pi*freq_frf), 'DisplayName', 'Hexapod') hold off; xlim([1, 100]); set(gca, 'xscale', 'log'); set(gca, 'yscale', 'log'); legend('location', 'northwest');
figure; hold on; plot(freq_frf, abs(ReIm5(:, 1))./(2*pi*freq_frf), 'DisplayName', 'Marble') plot(freq_frf, abs(ReIm5(:, 2))./(2*pi*freq_frf), 'DisplayName', 'Ty') plot(freq_frf, abs(ReIm5(:, 3))./(2*pi*freq_frf), 'DisplayName', 'Tilt') plot(freq_frf, abs(ReIm5(:, 4))./(2*pi*freq_frf), 'DisplayName', 'Hexapod') hold off; xlim([1, 100]); set(gca, 'xscale', 'log'); set(gca, 'yscale', 'log'); legend('location', 'northwest');