Difference between revisions of "Raihan Tsaqif A"

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(TUGAS BESAR METODE NUMERIK)
(TUGAS BESAR METODE NUMERIK)
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d. Defleksi sebagai Y
 
d. Defleksi sebagai Y
  
Trusses Modelling
+
class contohkuis
 
 
model Trusses_3D_Tugas_Besar_Simplified2
 
  
 
//define initial variable
 
//define initial variable
 
parameter Integer Points=16; //Number of Points
 
parameter Integer Points=16; //Number of Points
 
parameter Integer Trusses=24; //Number of Trusses
 
parameter Integer Trusses=24; //Number of Trusses
parameter Real Area=3777777.778; //Area
+
parameter Real Area=0.000141; //Area (0.025m 'l' x 0.003m 'thickness')
parameter Real Elas=1; //Elasticity (equals to one in order to determine the displacement limit)
+
parameter Real Elas=68.9e9; //Elasticity Aluminium 6063
  
 
//define connection
 
//define connection
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                                 15,16;//3rd floor
 
                                 15,16;//3rd floor
 
                                 13,16];//3rd floor
 
                                 13,16];//3rd floor
                                                           
+
                                                             
 
//define coordinates (please put orderly)
 
//define coordinates (please put orderly)
 
parameter Real P[Points,3]=[0.3,-0.375,0;    //1
 
parameter Real P[Points,3]=[0.3,-0.375,0;    //1
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                             0,0,-1000,  
 
                             0,0,-1000,  
 
                             0,0,-1000,  
 
                             0,0,-1000,  
                             0,0,-500};
+
                             0,0,-500};  
  
 
//define boundary
 
//define boundary
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G:=id;
 
G:=id;
 
for i in 1:Trusses loop
 
for i in 1:Trusses loop
for j in 1:3 loop
+
for j in 1:3 loop
  q1[j]:=P[C[i,1],j];
+
  q1[j]:=P[C[i,1],j];
  q2[j]:=P[C[i,2],j];
+
  q2[j]:=P[C[i,2],j];
end for;
+
end for;
     
+
     
  //Solving Matrix
+
    //Solving Matrix
  L:=Modelica.Math.Vectors.length(q2-q1);
+
    L:=Modelica.Math.Vectors.length(q2-q1);
  cx:=(q2[1]-q1[1])/L;
+
    cx:=(q2[1]-q1[1])/L;
  cy:=(q2[2]-q1[2])/L;
+
    cy:=(q2[2]-q1[2])/L;
  cz:=(q2[3]-q1[3])/L;  
+
    cz:=(q2[3]-q1[3])/L;  
  X:=(Area*Elas/L)*[cx^2,cx*cy,cx*cz;
+
    X:=(Area*Elas/L)*[cx^2,cx*cy,cx*cz;
                    cy*cx,cy^2,cy*cz;
+
                      cy*cx,cy^2,cy*cz;
                    cz*cx,cz*cy,cz^2];
+
                      cz*cx,cz*cy,cz^2];
 
+
  //Transforming to global matrix
+
    //Transforming to global matrix
  g:=zeros(N,N);  
+
    g:=zeros(N,N);  
  for m,n in 1:3 loop
+
    for m,n in 1:3 loop
    g[3*(C[i,1]-1)+m,3*(C[i,1]-1)+n]:=X[m,n];
+
      g[3*(C[i,1]-1)+m,3*(C[i,1]-1)+n]:=X[m,n];
    g[3*(C[i,2]-1)+m,3*(C[i,2]-1)+n]:=X[m,n];
+
      g[3*(C[i,2]-1)+m,3*(C[i,2]-1)+n]:=X[m,n];
    g[3*(C[i,2]-1)+m,3*(C[i,1]-1)+n]:=-X[m,n];
+
      g[3*(C[i,2]-1)+m,3*(C[i,1]-1)+n]:=-X[m,n];
    g[3*(C[i,1]-1)+m,3*(C[i,2]-1)+n]:=-X[m,n];
+
      g[3*(C[i,1]-1)+m,3*(C[i,2]-1)+n]:=-X[m,n];
  end for;   
+
    end for;   
 
+
G_star:=G+g;
+
G_star:=G+g;
G:=G_star;
+
G:=G_star;
 
end for;
 
end for;
 
+
 
//Implementing boundary
 
//Implementing boundary
 
for i in boundary loop
 
for i in boundary loop
for j in 1:N loop
+
for j in 1:N loop
  G[i,j]:=id[i,j];
+
  G[i,j]:=id[i,j];
end for;
+
end for;
 
end for;
 
end for;
  
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  reaction[i]:=if abs(reaction[i])<=err then 0 else reaction[i];
 
  reaction[i]:=if abs(reaction[i])<=err then 0 else reaction[i];
 
  displacement[i]:=if abs(displacement[i])<=err then 0 else displacement[i];
 
  displacement[i]:=if abs(displacement[i])<=err then 0 else displacement[i];
end for;  
+
end for;
  
 
//Checking Force
 
//Checking Force
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for i in 1:3 loop
 
for i in 1:3 loop
check[i] := if abs(check[i])<=ers then 0 else check[i];
+
  check[i] := if abs(check[i])<=ers then 0 else check[i];
 
end for;
 
end for;
 
+
end contohkuis;
end Trusses_3D_Tugas_Besar_Simplified2;
 

Revision as of 15:02, 6 January 2021

Biodata

Nama : Raihan Tsaqif A

NPM : 1906379176

TTL : Semarang, 8 Oktober 2001

Hobi : Belajar

Saya adalah mahasiswa teknik mesin angkatan 2019, saya tertarik mengambil jurusan teknik mesin karena saya melihat bahwa di seluruh dunia ini semua bekerja dengan mesin. Mesin tidak hanya sesuatu yang melakukan pembakaran akan tetapi sebuah mekanisme pada suatu benda juga bisa disebut mesin sehingga dapat disimpulkan bahwa jurusan ini memiliki cakupan ilmu teknik yang sangat luas. Tujuan saya dalam mengikuti mata kuliah ini adalah untuk menjadi insan yang berguna untuk lingkungan sekitar dan dapat mendobrak perkembangan teknologi di Indonesia.

Tugas Metode Numerik

Pada tugas kali ini saya menggunakan aplikasi modelica dalam menentukan perubahan momentum tiap satuan waktu atau sebutan lainnya adalah gaya. Oleh karena itu saya lampirkan video sebagai berikut, sehingga harapannya dapat memberikan penjelasan juga kepada yang lainnya.



QUIZ METNUM

Flowchart

Pada quiz kali ini saya akan melampirkan langkah pengerjaan melalui flowchart


Flowchart tsaqif.jpg


TUGAS BESAR METODE NUMERIK

Dalam tugas besar ini kami diminta untuk mendesain rangka sesuai yang tertera dibawah dengan menggunakan rangka yang optimal dan cost yang minimum

Soaltubes2.jpg

Solaaa.jpg

Adapun Hal yang Harus Diperhitungkan sebagai Plotting

a. Harga material di dapat dari nilai optimum defleksi dan cross section

b. Material (Elastisitas properti)

c. Area Cross Section Truss (L profile/truss siku), luas cross section sebagai X

d. Defleksi sebagai Y

class contohkuis

//define initial variable parameter Integer Points=16; //Number of Points parameter Integer Trusses=24; //Number of Trusses parameter Real Area=0.000141; //Area (0.025m 'l' x 0.003m 'thickness') parameter Real Elas=68.9e9; //Elasticity Aluminium 6063

//define connection parameter Integer C[Trusses,2]=[1,5; 

                               2,6;
                               3,7;
                               4,8;
                               5,6;  //1st floor
                               6,7;  //1st floor
                               7,8;  //1st floor
                               5,8;  //1st floor
                               5,9;
                               6,10;
                               7,11;
                               8,12;
                               9,10; //2nd floor
                               10,11;//2nd floor 
                               11,12;//2nd floor
                               9,12; //2nd floor
                               9,13;
                               10,14;
                               11,15;
                               12,16;
                               13,14;//3rd floor
                               14,15;//3rd floor
                               15,16;//3rd floor
                               13,16];//3rd floor

//define coordinates (please put orderly) parameter Real P[Points,3]=[0.3,-0.375,0; //1 

                           -0.3,-0.375,0;    //2
                           -0.3,0.375,0;     //3
                           0.3,0.375,0;      //4
                           0.3,-0.375,0.6;   //5
                           -0.3,-0.375,0.6;  //6
                           -0.3,0.375,0.6;   //7
                           0.3,0.375,0.6;    //8
                           0.3,-0.375,1.2;   //9
                           -0.3,-0.375,1.2;  //10  
                           -0.3,0.375,1.2;   //11
                           0.3,0.375,1.2;    //12
                           0.3,-0.375,1.8;   //13
                           -0.3,-0.375,1.8;  //14
                           -0.3,0.375,1.8;   //15
                           0.3,0.375,1.8];   //16

//define external force (please put orderly) parameter Real F[Points*3]={0,0,0, 

                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,0, 
                           0,0,-500, 
                           0,0,-1000, 
                           0,0,-1000, 
                           0,0,-500};

//define boundary parameter Integer b[:]={1,2,3,4};

//solution Real displacement[N], reaction[N]; Real check[3];

parameter Integer N=3*Points; Integer boundary[3*size(b,1)]=cat(1,(3*b).-2,(3*b).-1,3*b); Real q1[3], q2[3], g[N,N], G[N,N], G_star[N,N], id[N,N]=identity(N), cx, cy, cz, L, X[3,3]; Real err=10e-10; Real ers=10e-4;

algorithm //Creating Global Matrix G:=id; for i in 1:Trusses loop 

for j in 1:3 loop
  q1[j]:=P[C[i,1],j];
  q2[j]:=P[C[i,2],j];
end for;
      
   //Solving Matrix
   L:=Modelica.Math.Vectors.length(q2-q1);
   cx:=(q2[1]-q1[1])/L;
   cy:=(q2[2]-q1[2])/L;
   cz:=(q2[3]-q1[3])/L; 
   X:=(Area*Elas/L)*[cx^2,cx*cy,cx*cz;
                     cy*cx,cy^2,cy*cz;
                     cz*cx,cz*cy,cz^2];

   //Transforming to global matrix
   g:=zeros(N,N); 
   for m,n in 1:3 loop
     g[3*(C[i,1]-1)+m,3*(C[i,1]-1)+n]:=X[m,n];
     g[3*(C[i,2]-1)+m,3*(C[i,2]-1)+n]:=X[m,n];
     g[3*(C[i,2]-1)+m,3*(C[i,1]-1)+n]:=-X[m,n];
     g[3*(C[i,1]-1)+m,3*(C[i,2]-1)+n]:=-X[m,n];
   end for;  

G_star:=G+g;
G:=G_star;

end for;

//Implementing boundary for i in boundary loop 

for j in 1:N loop
  G[i,j]:=id[i,j];
end for;

end for;

//Solving displacement displacement:=Modelica.Math.Matrices.solve(G,F);

//Solving reaction reaction:=(G_star*displacement)-F;

//Eliminating float error for i in 1:N loop 

reaction[i]:=if abs(reaction[i])<=err then 0 else reaction[i];
displacement[i]:=if abs(displacement[i])<=err then 0 else displacement[i];

end for;

//Checking Force check[1]:=sum({reaction[i] for i in (1:3:(N-2))})+sum({F[i] for i in (1:3:(N-2))}); check[2]:=sum({reaction[i] for i in (2:3:(N-1))})+sum({F[i] for i in (2:3:(N-1))}); check[3]:=sum({reaction[i] for i in (3:3:N)})+sum({F[i] for i in (3:3:N)});

for i in 1:3 loop 

 check[i] := if abs(check[i])<=ers then 0 else check[i];

end for; end contohkuis;

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