Pengolahan Data Pengujian Transmisibilitas Isolator 1 saat Dieksitasi pada Massa 1
B.5 Pengolahan Data Pengujian Transmisibilitas Isolator 1 saat Dieksitasi pada Massa 1
clc clear all close all
data1 = xlsread( 'FRF_2DOF_m1_dipukul_bagian_kanan.xls' , 'FRF' , 'A7:D12806' ); %real value data
f = data1(:,1); %impact hammer data A1_1 = data1(:,3); %acc 1 data A2_1 = data1(:,2); %acc 2 data FT1_1 = data1(:,4); %FT1 data
data2 = xlsread( 'FRF_2DOF_m1_dipukul_bagian_kanan.xls' , 'FRF' , 'A12807:D25 606' ); %imaginary value data A1_2 = data2(:,3); A2_2 = data2(:,2); FT1_2 = data2(:,4); data2 = xlsread( 'FRF_2DOF_m1_dipukul_bagian_kanan.xls' , 'FRF' , 'A12807:D25 606' ); %imaginary value data A1_2 = data2(:,3); A2_2 = data2(:,2); FT1_2 = data2(:,4);
A1 = sqrt(A1_1.^2+A1_2.^2)*2*1.1;
%% Plotting magnitude A1/F1
close all figure( 'color' , 'w' ); plot(f,A1); xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,16); ylabel( 'FRF A1/F1 [G/lbf]' , 'fontname' , 'times' , 'fontsize' ,16); title ( 'Grafik Hasil Pengujian FRF A1/F1' , 'fontname' , 'times' , 'fontsize' ,16); grid on
% Plotting coherence A1/F1 figure plot(f,A1_3); xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,16); title ( 'Grafik Coherence FRF A1/F1' , 'fontname' , 'times' , 'fontsize' ,16); grid on
%% FRF A2F1
A2 = sqrt(A2_1.^2+A2_2.^2)*2*1.1; A2_3 = data3(:,2);
% Plotting magnitude A2/F1 close all figure ( 'color' , 'w' ); plot(f,A2); xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,14); ylabel( 'FRF [G/lbf]' , 'fontname' , 'times' , 'fontsize' ,14); title ( 'FRF A2/F1' , 'fontname' , 'times' , 'fontsize' ,14); grid on
% Plotting coherence figure plot(f,A2_3); xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,14); title ( 'COHERENCE FRF A2/F1' , 'fontname' , 'times' , 'fontsize' ,14); grid on
%% FRF FT1F1
FT1 = sqrt(FT1_1.^2+FT1_2.^2)*1.15; FT1_3 = data3(:,3); fasa2 = atan2d (FT1_2,FT1_1);
% Plotting magnitude figure ( 'color' , 'w' ); plot(f,FT1); xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,14); ylabel( 'FRF [lbf/lbf]' , 'fontname' , 'times' , 'fontsize' ,14); title ( 'FRF FT1/F1' , 'fontname' , 'times' , 'fontsize' ,14); grid on
% Plotting coherence figure plot(f,FT1_3); xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,14); title ( 'COHERENCE FRF FT1/F1' , 'fontname' , 'times' , 'fontsize' ,14); grid on
%% FT1/F1 berdasarkan persamaan
G = -2*1.2*(A1_1+1i*A1_2); FT1F1 = 1-0.8*(G);
figure ( 'color' , 'w' );
plot(f,FT1,f,abs(FT1F1), '--' ); %Plotting magnitude xlim([0 200]); xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,14); ylabel( 'FRF [lbf/lbf]' , 'fontname' , 'times' , 'fontsize' ,14); title ( 'FRF FT1/F1' , 'fontname' , 'times' , 'fontsize' ,14); legend ( 'Pengukuran Langsung' , 'Persamaan' ) grid on ;
%% Plotting A2/A1 PengukuranA = A2./A1;
figure ( 'color' , 'w' ); plot(f,PengukuranA); xlim([0 200]); ylim([0 0.9]) xlabel( 'f [Hz]' , 'fontname' , 'times' , 'fontsize' ,14); title ( 'Grafik Transmisibilitas Getaran A2/A1 ' , 'fontname' , 'times' , 'fontsize' ,14); grid on %% Model
m1=0.8 ; k1=21970; c1=26.25 ; m2=6.8 ; k2=110663 ; c2=173.49 m1=0.8 ; k1=21970; c1=26.25 ; m2=6.8 ; k2=110663 ; c2=173.49
A = (m2*w.^4-(k1+k2)*w.^2);
B = (-(c1+c2)*w.^3)*1i;
C = (m1*m2*w.^4-(m1*(k1+k2)+c1*c2+m2*k1)*w.^2+k1*k2);
D = (-(m1*(c1+c2)+m2*c1)*w.^3+(c1*k2+c2*k1)*w)*1i;
E = -k1*w.^2-c1*w.^3*1i; %% PemodelanFT = 1-m1*((A+B)./(C+D));
figure; plot (frekuensi,abs(PemodelanFT)); xlabel( 'frekuensi(Hz)' , 'fontname' , 'times' , 'fontsize' ,16); ylabel( 'FT1/F1 (lbf/lbf)' , 'fontname' , 'times' , 'fontsize' ,16); grid on title( 'Grafik Pemodelan Transmisibilitas Gaya FT1/F1' , 'fontname' , 'times' , 'fontsize' ,16); xlim([0 200]); %% PemodelanA = E./(A+B); FRF3 = abs(PemodelanA);
figure; plot (frekuensi,FRF3); xlabel ( 'f (Hz)' , 'fontname' , 'times' , 'fontsize' ,14); ylabel ( 'A2/A1 (G/G)' , 'fontname' , 'times' , 'fontsize' ,14); grid on xlim([0 200]); %% Grafik Perbandingan Transmisibilitas Getaran
figure plot (frekuensi,FRF3,f,PengukuranA, '--' ); xlabel ( 'f (Hz)' , 'fontname' , 'times' , 'fontsize' ,14); ylabel ( 'A2/A1 (G/G)' , 'fontname' , 'times' , 'fontsize' ,14); legend ( 'Pemodelan' , 'Pengukuran' ); title( 'Grafik Perbandingan Transmisibilitas Getaran' , 'fontname' , 'times' , 'fontsize' ,16); grid on xlim([0 200]); ylim([0 0.9]); %% Grafik Perbandingan Transmisibilitas Gaya close all
figure plot (frekuensi,abs(PemodelanFT),f,FT1, '--' ); xlabel ( 'f (Hz)' , 'fontname' , 'times' , 'fontsize' ,14); ylabel ( 'FT1/F1 (lbf/lbf)' , 'fontname' , 'times' , 'fontsize' ,14); legend ( 'Pemodelan' , 'Pengukuran' ); title( 'Grafik Perbandingan Transmisibilitas Gaya' , 'fontname' , 'times' , 'fontsize' ,16); grid on figure plot (frekuensi,abs(PemodelanFT),f,FT1, '--' ); xlabel ( 'f (Hz)' , 'fontname' , 'times' , 'fontsize' ,14); ylabel ( 'FT1/F1 (lbf/lbf)' , 'fontname' , 'times' , 'fontsize' ,14); legend ( 'Pemodelan' , 'Pengukuran' ); title( 'Grafik Perbandingan Transmisibilitas Gaya' , 'fontname' , 'times' , 'fontsize' ,16); grid on