SYST:  //Name, KN, MA, QU, ST, LF, SL, KL, IM, RB, VB, LK, EL, EK    
  Vierendeel   10   1   3  13  3   8   2   0   3   0   2   0   0    
KNOT:  //Nr., x-Wert [m], z-Wert[m], *Neigung[Grad]    
  1    0.0  0.0    
  2    0.0  3.0    
  3    4.0  0.0    
  4    4.0  3.0    
  5    8.0  0.0    
  6    8.0  3.0    
  7   12.0  0.0    
  8   12.0  3.0    
  9   16.0  0.0    
  10  16.0  3.0    
MATE:  //MA-Nr, Name, E[kN/cm2], fy[kN/cm2], alphaT[1/C], *gamma[kN/m3]    
  1  LINELA  20000.0  23.5  0.000012    
QUER: //QU-Nr, MA-Nr, A[cm2], Iy[cm4], h[cm], *hu[cm]    
  1  1  180.0   9000.0  28.0     
  2  1  360.0  12000.0  40.0    
  3  1  120.0   6000.0  20.0    
STAB:  //ST-Nr, KN_A, KN_E, QU-Nr, *(SE-Gelenke, *(bx, bz, bphi))    
  1   1  2   3    
  2   1  3   2    
  3   2  4   1    
  4   3  4   3    
  5   3  5   2    
  6   4  6   1    
  7   5  6   3    
  8   5  7   2    
  9   6  8   1    
  10  7  8   3    
  11  7  9   2    
  12  8  10  1    
  13  9  10  3    
LAFA:  //LF-Nr., Bezeichnung, *Multiplikator    
  1  Obergurt    
  2  H_Last    
  3  Temperatur    
SLAS:  //SL-Nr, ST-Nr, Art, LF-Nr, Wert_A, *Wert_E [kN/m, C]    
  1  2   q  1   15.0    
  2  5   q  1   30.0    
  3  8   q  1   30.0    
  4  11  q  1   15.0    
  5  3   T  3   30.0    
  6  6   T  3   30.0    
  7  9   T  3   30.0    
  8  12  T  3   30.0    
KLAS:  //KL-Nr, KN-Nr, Art, LF-Nr, Groesse[kN,kNm]    
  1   9  1  2   30.0    
  2  10  1  2   60.0    
RBED:  //RB-Nr, KN-Nr, Art, *Federkennwert[kN/m, kNm/rad]    
  1   2  1    
  2   2  2    
  3  10  2    
VBED:  //VB-Nr, KN-Nr, Art, LF-Nr, Verformung[m]    
LAKO:  //LK-Nr, Ueberlagerungsfaktor je LF    
  1  0.0   1.0  1.0    
  2  1.0   0.0  1.0    
ENDE: