[MDI_HEADER] FILE_TYPE ='tir' FILE_VERSION =3.0 FILE_FORMAT ='ASCII' ! : TIRE_VERSION : PAC2002 ! ! USE_MODE specifies the type of calculation performed: ! 0: Fz only, no Magic Formula evaluation ! 1: Fx,My only ! 2: Fy,Mx,Mz only ! 3: Fx,Fy,Mx,My,Mz uncombined force/moment calculation ! 4: Fx,Fy,Mx,My,Mz combined force/moment calculation ! +10: including relaxation behaviour ! ! $----------------------------------------------------------------units [UNITS] LENGTH ='meter' FORCE ='newton' ANGLE ='radians' MASS ='kg' TIME ='second' $----------------------------------------------------------------model [MODEL] PROPERTY_FILE_FORMAT ='PAC2002' USE_MODE = 3 $Tyre use switch (IUSED) VXLOW = 0.1 LONGVL = 16.6 $Measurement speed TYRESIDE = 'LEFT' $Mounted side of tyre at vehicle/test bench $------------------------------------------------------------dimensions [DIMENSION] UNLOADED_RADIUS = 0.30 $typarr( 7) WIDTH = 0.03 $typarr( 8) RIM_RADIUS = 0.32 $typarr( 9) RIM_WIDTH = 0.02 $typarr( 10) $----------------------------------------------------------------shape [SHAPE] {radial width} 1.0 0.0 1.0 0.4 1.0 0.9 0.9 1.0 $-------------------------------------------------------------parameter [VERTICAL] VERTICAL_STIFFNESS = 1.0E+5 $typarr( 15) VERTICAL_DAMPING = 3.0E+2 $typarr( 16) BREFF = 0.840000E+01 $typarr( 11) DREFF = 0.270000E+00 $typarr( 12) FREFF = 0.700000E-01 $typarr( 13) FNOMIN = 500 $typarr( 14) $--------------------------------------------------------long_slip_range [LONG_SLIP_RANGE] KPUMIN = -.100000E+01 $typarr( 23) KPUMAX = 0.100000E+01 $typarr( 24) $---------------------------------------------------------slip_angle_range [SLIP_ANGLE_RANGE] ALPMIN = -.315000E+01 $typarr( 25) ALPMAX = 0.315000E+01 $typarr( 26) $--------------------------------------------------inclination_slip_range [INCLINATION_ANGLE_RANGE] CAMMIN = -.315000E+01 $typarr( 27) CAMMAX = 0.315000E+01 $typarr( 28) $---------------------------------------------------vertical_force_range [VERTICAL_FORCE_RANGE] FZMIN = 0.000000E+00 $typarr( 21) FZMAX = 4.0e6 $typarr( 22) $---------------------------------------------------------------scaling [SCALING_COEFFICIENTS] LFZO = 0.100000E+01 $typarr( 31) LCX = 0.100000E+01 $typarr( 32) LMUX = 0.100000E+01 $typarr( 33) LEX = 0.100000E+01 $typarr( 34) LKX = 0.100000E+01 $typarr( 35) LHX = 0.100000E+01 $typarr( 36) LVX = 0.100000E+01 $typarr( 37) LCY = 0.100000E+01 $typarr( 38) LMUY = 0.100000E+01 $typarr( 39) LEY = 0.100000E+01 $typarr( 40) LKY = 0.100000E+01 $typarr( 41) LHY = 0.0 $typarr( 42) LVY = 0.0 $typarr( 43) LGAY = 0.100000E+01 $typarr( 44) LTR = 0.100000E+01 $typarr( 45) LRES = 0.0 $typarr( 46) LGAZ = 0.100000E+01 $typarr( 47) LXAL = 0.100000E+01 $typarr( 48) LYKA = 0.100000E+01 $typarr( 49) LVYKA = 0.100000E+01 $typarr( 50) LS = 0.100000E+01 $typarr( 51) LSGKP = 0.100000E+01 $typarr( 52) LSGAL = 0.100000E+01 $typarr( 53) LGYR = 0.100000E+01 $typarr( 54) $--------------------------------------------------------logitudinal [LONGITUDINAL_COEFFICIENTS] PCX1 = 1.5 $typarr( 61) PDX1 = 1.0 $typarr( 62) PDX2 = 0 $typarr( 63) PEX1 = 0 $typarr( 64) PEX2 = 0 $typarr( 65) PEX3 = 0 $typarr( 66) PEX4 = 0 $typarr( 67) PKX1 = 10.0 $typarr( 68) PKX2 = 0 $typarr( 69) PKX3 = 0 $typarr( 70) PHX1 = 0 $typarr( 71) PHX2 = 0 $typarr( 72) PVX1 = 0 $typarr( 73) PVX2 = 0 $typarr( 74) RBX1 = 0.122428E+02 $typarr( 75) RBX2 = -.997521E+01 $typarr( 76) RCX1 = 0.106866E+01 $typarr( 77) RHX1 = -.618958E-02 $typarr( 78) PTX1 = 0.100000E+01 $typarr( 79) PTX2 = 0.000000E+00 $typarr( 80) PTX3 = 0.000000E+00 $typarr( 81) $-----------------------------------------------------------lateral [LATERAL_COEFFICIENTS] PCY1 = 1.3 $typarr( 91) PDY1 = -1.0 $typarr( 92) PDY2 = 0 $typarr( 93) PDY3 = 0 $typarr( 94) PEY1 = 0 $typarr( 95) PEY2 = 0 $typarr( 96) PEY3 = 0 $typarr( 97) PEY4 = 0 $typarr( 98) PKY1 = -10.0 $typarr( 99) PKY2 = 2.0 $typarr( 100) PKY3 = 0 $typarr( 101) PHY1 = 0 $typarr( 102) PHY2 = 0 $typarr( 103) PHY3 = 0 $typarr( 104) PVY1 = 0 $typarr( 105) PVY2 = 0 $typarr( 106) PVY3 = 0 $typarr( 107) PVY4 = 0 $typarr( 108) RBY1 = 0 $typarr( 109) RBY2 = 0 $typarr( 110) RBY3 = 0 $typarr( 111) RCY1 = 0 $typarr( 112) RHY1 = 0 $typarr( 113) RVY1 = 0 $typarr( 114) RVY2 = 0 $typarr( 115) RVY3 = 0 $typarr( 116) RVY4 = 0 $typarr( 117) RVY5 = 0 $typarr( 118) RVY6 = 0 $typarr( 119) PTY1 = 0.150000E+01 $typarr( 120) PTY2 = 0.200000E+01 $typarr( 121) $------------------------------------------------------------aligning [ALIGNING_COEFFICIENTS] QBZ1 = 0.107807E+02 $typarr( 131) QBZ2 = -.400560E+01 $typarr( 132) QBZ3 = 0.184837E+01 $typarr( 133) QBZ4 = 0.294563E+00 $typarr( 134) QBZ5 = 0.000000E+00 $typarr( 135) QBZ9 = 0.318193E+02 $typarr( 136) QCZ1 = 0.123342E+01 $typarr( 137) QDZ1 = 0 $typarr( 138) QDZ2 = 0 $typarr( 139) QDZ3 = 0 $typarr( 140) QDZ4 = 0 $typarr( 141) QDZ6 = 0 $typarr( 142) QDZ7 = 0 $typarr( 143) QDZ8 = 0 $typarr( 144) QDZ9 = 0 $typarr( 145) QEZ1 = 0 $typarr( 146) QEZ2 = 0.114149E+01 $typarr( 147) QEZ3 = 0.000000E+00 $typarr( 148) QEZ4 = -.474070E+00 $typarr( 149) QEZ5 = -.388634E+01 $typarr( 150) QHZ1 = -.397677E-02 $typarr( 151) QHZ2 = -.360334E-02 $typarr( 152) QHZ3 = -.215809E+00 $typarr( 153) QHZ4 = -.168349E+00 $typarr( 154) SSZ1 = -.313609E-01 $typarr( 155) SSZ2 = 0.143442E-01 $typarr( 156) SSZ3 = -.655596E+00 $typarr( 157) SSZ4 = 0.313881E+00 $typarr( 158) QTZ1 = 0.500000E+00 $typarr( 159) MBELT = 0.100000E+02 $typarr( 160)