$$$ Current Year: 2010 Month: 2 Day: 22 $$$ **************************************************************************** MIXED ELASTOHYDRODYNAMIC LUBRICATION: A POINT CONTACT CASE INPUT DATA ----------- CASE DESCRIPTION: Sin Surfaces, Elliptical Contact K=3 GEOMETRIC PARAMETERS Radius of curvature of Body A in X direction: 19.050000 mm Radius of curvature of Body B in X direction:************ mm Radius of curvature of Body A in Y direction: 102.750000 mm Radius of curvature of Body B in Y direction:************ mm OPERATING CONDITIONS Applied normal load: 3301.6000 N Surface velocity of Body A: 0.62500000 m/s Surface velocity of Body B: 0.62500000 m/s Rolling Velocity: 0.62500000 m/s Slide-To-Roll Ratio: 0.00000000 Ambient temperature of Body A: 40.0000 deg.C Ambient temperature of Body B: 40.0000 deg.C MATERIAL PROPERTIES OF TWO BODIES Body A Body B Unit Young's modulus: 199.999994 199.999994 GPa Poisson's ratio: 0.300000 0.300000 Density: 7.865000 7.865000 g/cm**3 Conductivity: 46.000000 46.000000 W/(m.deg.C) Specific heat: 0.460000 0.460000 N.m/(g.deg.C) SURFACE ROUGHNESS PARAMETERS RMS Roughness of Surface A: 0.353553 micron RMS Roughness of Surface B: 0.353553 micron Composite RMS Roughness: 0.500000 micron Roughness Ratio RQ1/RQ2: 1.000000 DIMENSIONLESS SINUSOIDAL SURFACE PARAMETERS Wavelength of Surface A in Xr1-direction: 0.6000000 Wavelength of Surface A in Yr1-direction: 0.3500000 Wavelength of Surface B in Xr2-direction: 0.6000000 Wavelength of Surface B in Yr2-direction: 0.3500000 Angle Between Xr1-direction and Rolling: 0.00000 Angle Between Xr2-direction and Rolling: 0.00000 Phase Difference in X-direction: 0.00000 Phase Difference in Y-direction: 0.00000 LUBRICANT PROPERTIES Lubricant Name: Base Mineral Oil Kinematic Viscosity: 0.0000 cSt at 0.000 deg.C 0.0000 cSt at 0.000 deg.C Dynamic Viscosity at Inlet: 0.09600000 Pa.s Pressure-Viscosity Coeff. AL: 18.200000 1/GPa Pressure-viscosity Coeff. AL2: 0.720000 1/GPa Exponent CAK for Power Law: 16.000000 Density at room temperature: 0.880000 g/cm**3 Thermal Conductivity: 0.145000 W/(m.deg.C) Boundary Friction Coefficient: 0.100000 KINEMATIC VISCOSITY EQUATION for Base Mineral Oil lg ( lg ( v + 0.6)) = 0.00000 + ( 0.00000 * lg T ) where kinematic viscosity v is in cSt temperature T is in degree K DYNAMIC VISCOSITY EQUATION for Base Mineral Oil ET = ETO * EXP [ AL * P + ( BET + GAM * P )( 1/T - 1/TO )] where ET is the dynamic viscosity at temperature T and pressure P ETO is the dynamic viscosity at temperature TO and atmospheric pressure ETO =0.0960000000 Pa.s AL is the pressure-viscosity exponent AL = 18.20000000 1/GPa BET is the temperature-viscosity exponent BET = 0.0000 deg.K GAM is the pressure-temperature-viscosity exponent GAM = 0.00000000 deg.K/GPa temperatures T and TO are in deg.K TO = 0.0000 deg.K pressure P is in GPa **************************************************************************** RESULTS OF CALCULATION ---------------------- Actual Hertzian Contact Parameters: Ph= 1.6999654 A= 0.55275 B= 1.67764 K= 3.03508 74 E0= 219.78022 RX= 19.0500 RY= 102.7487 PLMT= ********* GPa NTC= 500 KSURF= 2 KFLOOD= 0 KRHEO= 0 KPLMT= 0 KFRCTMP= 0 PLMT= 100.0000 NSTART=-3 KFFT= 1 KHALF= 1 HLIM= 5.000 nm HAA= 0.00000905 Numerical Solution Control Parameters: Wedge Term Scheme_X: Blue-DXR Squeeze Term Scheme_T: Blue-DXR dT to dX Correlation Ratio: 1 dS/dX Differential Scheme: 2nd Central Roughness Interpolation Level: 2nd Order Correlation Between DXR and DX: Independent Correlation Between DYR and DY: Independent Recalculate DX1,DX2 Using D1,D2 for SIN: Yes Dimensionless Time Step Length: 0.0117191 Lowest Mesh Level and First Level Mesh Numbers M/N: 4 48 / 32 Delta_S1= 0.0117191 Delta_S2= 0.0117191 Delta_T= 0.0117191 X0 = -3.4000 Y0 = -1.6000 from Smooth.dat X0P = -3.4000 Y0P = -1.6000 from Pres.dat Estimated X0= -1.273834 Estimated HCs/HC= 1.000000 Dimensionless Hc From File = 0.182713E-04 WAx1= 0.60000 WAy1= 0.35000 THE1= 0.00 degree WAx2= 0.60000 WAy2= 0.35000 THE2= 0.00 degree phase difference in X-direction: 0.00000 phase difference in Y-direction: 0.00000 Ra1 = 0.2866 Rq1 = 0.3536 Rt1 = 0.7071 micron Ra2 = 0.2866 Rq2 = 0.3536 Rt2 = 0.7071 micron Sig = 0.5000 RSig= 1.0000 Rq1 = 0.3536 Rq2 = 0.3536 NTC= 500 NTC1= -332 NTC2= -332 0.499244 0.499244 Dimensionless Parameters and Film Thickness Estimates by Conventional Theories for Point Contacts: Material Parameter GR = 4000.00018 Speed Parameter UR =0.143307E-10 Load Parameter WR =0.413950E-04 Viscosity Parameter Gv =0.138155E+13 Elasticity Parameter Ge =0.998443E+10 Load Parameter M =0.334175E+04 Materials Parameter L =0.925518E+01 Ellipticity Parameter K = 3.035079 Slide-To-Roll Ratio S = 0.000000 Hc from EHL Theory =0.217422E-04 414.1870 nm Hm from EHL Theory =0.162995E-04 310.5044 nm Hc from Isovisc-Rigid Theory =0.222438E-09 0.0042 nm Hc from Piezovisc-Rigid Theory =0.110864E-06 2.1120 nm Hc from Isovisc-Elastic Theory =0.463126E-05 88.2252 nm Hm from Isovisc-Elastic Theory =0.348860E-05 66.4576 nm Film Thickness Hc(Ge,Gv)=0.181410E+09 Film Thickness Hm(Ge,Gv)=0.135998E+09 Film Thickness Hc(M,L) =0.406119E+01 Film Thickness Hm(M,L) =0.304456E+01 Nominal Lambda Ratio = 1.392267 Inlet Distance X0 = 3.400000 Outlet Distance Xe = 1.100000 Lateral Distance Y0 = 1.600000 Minimum X0 Required for Flooded= 1.273834 Ratio of HcActual to HcFlood = 1.000000 Pressure-Viscosity Relation: Power Law, CAK= 16.000 Calculated Load/Input Load = 0.99999999 KLEV = 4 Calculated Load/Input Load = 0.99999999 KLEV = 4 FW =-.119855E-02 KLEV = 4 M = 384 N = 256 Dx = 0.0117188 Dy = 0.0125000 X0 =-3.4000001 Xe = 1.1000000 Y0 =-1.6000000 Timing Starts (sec)= 3.49442240000000 Calculated Load/Input Load = 0.99999999 KLEV = 4 After Read 49 Before W cycle started NT= 5 IT= 201 Er=0.000099993 0.00053260 Ha=0.00063125 348.922 nm CPU= 128.6 NT= 10 T= 0.105470011E+00 S1= 0.105470011E+00 S2= 0.105470011E+00 NT= 10 IT= 279 Er=0.000099674 0.00107119 Ha=0.00063291 349.841 nm CPU= 305.1 NT= 15 IT= 314 Er=0.000098951 0.00161439 Ha=0.00063370 350.275 nm CPU= 517.4 NT= 20 T= 0.222659087E+00 S1= 0.222659087E+00 S2= 0.222659087E+00 NT= 20 IT= 329 Er=0.000099764 0.00225600 Ha=0.00063240 349.560 nm CPU= 743.9 NT= 25 IT= 358 Er=0.000098918 0.00314243 Ha=0.00062898 347.667 nm CPU= 984.2 NT= 30 T= 0.339848162E+00 S1= 0.339848162E+00 S2= 0.339848162E+00 NT= 30 IT= 408 Er=0.000099405 0.00417329 Ha=0.00062887 347.609 nm CPU= 1255.0 NT= 35 IT= 447 Er=0.000099597 0.00527172 Ha=0.00063469 350.823 nm CPU= 1550.8 NT= 40 T= 0.457037238E+00 S1= 0.457037238E+00 S2= 0.457037238E+00 NT= 40 IT= 467 Er=0.000099363 0.00649381 Ha=0.00064747 357.886 nm CPU= 1866.1 NT= 45 IT= 459 Er=0.000099361 0.00745441 Ha=0.00066764 369.037 nm CPU= 2187.9 NT= 50 T= 0.574226313E+00 S1= 0.574226313E+00 S2= 0.574226313E+00 NT= 50 IT= 496 Er=0.000099836 0.00916538 Ha=0.00069003 381.413 nm CPU= 2529.0 NT= 55 IT= 524 Er=0.000099571 0.01047580 Ha=0.00069238 382.712 nm CPU= 2914.5 NT= 60 T= 0.691415389E+00 S1= 0.691415389E+00 S2= 0.691415389E+00 NT= 60 IT= 546 Er=0.000099211 0.01159108 Ha=0.00069335 383.249 nm CPU= 3331.6 NT= 65 IT= 543 Er=0.000099897 0.01284225 Ha=0.00068936 381.044 nm CPU= 3744.8 NT= 70 T= 0.808604465E+00 S1= 0.808604465E+00 S2= 0.808604465E+00 NT= 70 IT= 535 Er=0.000099893 0.01400993 Ha=0.00068001 375.875 nm CPU= 4154.4 NT= 75 IT= 538 Er=0.000099428 0.01536054 Ha=0.00066773 369.086 nm CPU= 4561.6 NT= 80 T= 0.925793540E+00 S1= 0.925793540E+00 S2= 0.925793540E+00 NT= 80 IT= 550 Er=0.000099940 0.01634950 Ha=0.00065487 361.980 nm CPU= 4966.2 NT= 85 IT= 564 Er=0.000099619 0.01756833 Ha=0.00064451 356.252 nm CPU= 5368.8 NT= 90 T= 0.104298262E+01 S1= 0.104298262E+01 S2= 0.104298262E+01 NT= 90 IT= 574 Er=0.000099436 0.01877525 Ha=0.00063778 352.534 nm CPU= 5775.5 NT= 95 IT= 556 Er=0.000099698 0.01956369 Ha=0.00063371 350.281 nm CPU= 6174.4 NT= 100 T= 0.116017169E+01 S1= 0.116017169E+01 S2= 0.116017169E+01 NT= 100 IT= 565 Er=0.000099523 0.02094008 Ha=0.00063146 349.037 nm CPU= 6557.5 NT= 105 IT= 568 Er=0.000099605 0.02191033 Ha=0.00062978 348.112 nm CPU= 6930.7 NT= 110 T= 0.127736077E+01 S1= 0.127736077E+01 S2= 0.127736077E+01 NT= 110 IT= 587 Er=0.000099321 0.02283812 Ha=0.00062937 347.886 nm CPU= 7312.0 NT= 115 IT= 582 Er=0.000099772 0.02386108 Ha=0.00062692 346.529 nm CPU= 7698.0 NT= 120 T= 0.139454984E+01 S1= 0.139454984E+01 S2= 0.139454984E+01 NT= 120 IT= 581 Er=0.000099861 0.02491737 Ha=0.00061969 342.535 nm CPU= 8082.9 NT= 125 IT= 571 Er=0.000099576 0.02574346 Ha=0.00061064 337.530 nm CPU= 8466.9 NT= 130 T= 0.151173892E+01 S1= 0.151173892E+01 S2= 0.151173892E+01 NT= 130 IT= 588 Er=0.000099942 0.02678539 Ha=0.00060238 332.963 nm CPU= 8849.5 NT= 135 IT= 598 Er=0.000099680 0.02758191 Ha=0.00059687 329.918 nm CPU= 9239.3 NT= 140 T= 0.162892799E+01 S1= 0.162892799E+01 S2= 0.162892799E+01 NT= 140 IT= 602 Er=0.000099831 0.02838913 Ha=0.00059384 328.242 nm CPU= 9637.4 NT= 145 IT= 595 Er=0.000099620 0.02918145 Ha=0.00059349 328.051 nm CPU= 10036.6 NT= 150 T= 0.174611707E+01 S1= 0.174611707E+01 S2= 0.174611707E+01 NT= 150 IT= 592 Er=0.000099607 0.02997398 Ha=0.00059691 329.940 nm CPU= 10430.5 NT= 155 IT= 596 Er=0.000099751 0.03070096 Ha=0.00060230 332.918 nm CPU= 10826.3 NT= 160 T= 0.186330614E+01 S1= 0.186330614E+01 S2= 0.186330614E+01 NT= 160 IT= 605 Er=0.000099912 0.03116805 Ha=0.00060712 335.584 nm CPU= 11231.4 NT= 165 IT= 614 Er=0.000099403 0.03191068 Ha=0.00060948 336.887 nm CPU= 11639.6 NT= 170 T= 0.198049522E+01 S1= 0.198049522E+01 S2= 0.198049522E+01 NT= 170 IT= 609 Er=0.000099483 0.03235213 Ha=0.00060907 336.662 nm CPU= 12048.9 NT= 175 IT= 597 Er=0.000099436 0.03268849 Ha=0.00060706 335.553 nm CPU= 12444.0 NT= 180 T= 0.209768430E+01 S1= 0.209768430E+01 S2= 0.209768430E+01 NT= 180 IT= 607 Er=0.000099813 0.03327821 Ha=0.00060409 333.911 nm CPU= 12841.0 NT= 185 IT= 616 Er=0.000099466 0.03341111 Ha=0.00060021 331.765 nm CPU= 13244.5 NT= 190 T= 0.221487337E+01 S1= 0.221487337E+01 S2= 0.221487337E+01 NT= 190 IT= 616 Er=0.000099695 0.03368974 Ha=0.00059660 329.772 nm CPU= 13651.6 NT= 195 IT= 610 Er=0.000099661 0.03379681 Ha=0.00059608 329.481 nm CPU= 14055.7 NT= 200 T= 0.233206245E+01 S1= 0.233206245E+01 S2= 0.233206245E+01 NT= 200 IT= 615 Er=0.000099673 0.03423227 Ha=0.00059985 331.566 nm CPU= 14459.5 NT= 205 IT= 618 Er=0.000099834 0.03436225 Ha=0.00060579 334.847 nm CPU= 14866.6 NT= 210 T= 0.244925152E+01 S1= 0.244925152E+01 S2= 0.244925152E+01 NT= 210 IT= 620 Er=0.000099854 0.03404156 Ha=0.00061050 337.452 nm CPU= 15276.8 NT= 215 IT= 618 Er=0.000099804 0.03399289 Ha=0.00061230 338.449 nm CPU= 15686.4 NT= 220 T= 0.256644060E+01 S1= 0.256644060E+01 S2= 0.256644060E+01 NT= 220 IT= 613 Er=0.000099559 0.03414291 Ha=0.00061167 338.099 nm CPU= 16095.1 NT= 225 IT= 614 Er=0.000099678 0.03452478 Ha=0.00060947 336.882 nm CPU= 16498.2 NT= 230 T= 0.268362967E+01 S1= 0.268362967E+01 S2= 0.268362967E+01 NT= 230 IT= 622 Er=0.000099947 0.03460531 Ha=0.00060625 335.103 nm CPU= 16907.8 NT= 235 IT= 622 Er=0.000099263 0.03426242 Ha=0.00060222 332.879 nm CPU= 17319.4 NT= 240 T= 0.280081875E+01 S1= 0.280081875E+01 S2= 0.280081875E+01 NT= 240 IT= 621 Er=0.000099757 0.03403748 Ha=0.00059814 330.624 nm CPU= 17731.4 NT= 245 IT= 613 Er=0.000099536 0.03399214 Ha=0.00059652 329.728 nm CPU= 18138.8 NT= 250 T= 0.291800783E+01 S1= 0.291800783E+01 S2= 0.291800783E+01 NT= 250 IT= 619 Er=0.000099918 0.03457702 Ha=0.00059924 331.227 nm CPU= 18530.8 NT= 255 IT= 621 Er=0.000099577 0.03460739 Ha=0.00060488 334.349 nm CPU= 18928.3 NT= 260 T= 0.303519690E+01 S1= 0.303519690E+01 S2= 0.303519690E+01 NT= 260 IT= 623 Er=0.000099753 0.03426706 Ha=0.00061008 337.221 nm CPU= 19326.0 NT= 265 IT= 618 Er=0.000099545 0.03398722 Ha=0.00061257 338.598 nm CPU= 19718.3 NT= 270 T= 0.315238598E+01 S1= 0.315238598E+01 S2= 0.315238598E+01 NT= 270 IT= 615 Er=0.000099837 0.03406392 Ha=0.00061243 338.518 nm CPU= 20112.7 NT= 275 IT= 614 Er=0.000099764 0.03438459 Ha=0.00061054 337.476 nm CPU= 20490.8 NT= 280 T= 0.326957505E+01 S1= 0.326957505E+01 S2= 0.326957505E+01 NT= 280 IT= 621 Er=0.000099722 0.03462226 Ha=0.00060752 335.805 nm CPU= 20898.9 NT= 285 IT= 623 Er=0.000099644 0.03436271 Ha=0.00060365 333.667 nm CPU= 21303.6 NT= 290 T= 0.338676413E+01 S1= 0.338676413E+01 S2= 0.338676413E+01 NT= 290 IT= 620 Er=0.000099414 0.03402758 Ha=0.00059938 331.305 nm CPU= 21719.0 NT= 295 IT= 613 Er=0.000099618 0.03391694 Ha=0.00059685 329.906 nm CPU= 22133.0 NT= 300 T= 0.350395320E+01 S1= 0.350395320E+01 S2= 0.350395320E+01 NT= 300 IT= 613 Er=0.000099604 0.03443523 Ha=0.00059845 330.791 nm CPU= 22567.0 NT= 305 IT= 624 Er=0.000099411 0.03464401 Ha=0.00060363 333.658 nm CPU= 23003.4 NT= 310 T= 0.362114228E+01 S1= 0.362114228E+01 S2= 0.362114228E+01 NT= 310 IT= 624 Er=0.000099476 0.03438647 Ha=0.00060924 336.756 nm CPU= 23449.2 NT= 315 IT= 621 Er=0.000099463 0.03398753 Ha=0.00061248 338.547 nm CPU= 23890.8 NT= 320 T= 0.373833135E+01 S1= 0.373833135E+01 S2= 0.373833135E+01 NT= 320 IT= 618 Er=0.000099913 0.03400622 Ha=0.00061291 338.784 nm CPU= 24320.8 NT= 325 IT= 609 Er=0.000099629 0.03421562 Ha=0.00061138 337.942 nm CPU= 24682.6 NT= 330 T= 0.385552043E+01 S1= 0.385552043E+01 S2= 0.385552043E+01 NT= 330 IT= 619 Er=0.000099349 0.03463133 Ha=0.00060858 336.391 nm CPU= 25038.4 NT= 335 IT= 620 Er=0.000099933 0.03448556 Ha=0.00060489 334.353 nm CPU= 25393.7 NT= 340 T= 0.397270951E+01 S1= 0.397270951E+01 S2= 0.397270951E+01 NT= 340 IT= 621 Er=0.000099653 0.03407216 Ha=0.00060058 331.970 nm CPU= 25745.8 NT= 345 IT= 617 Er=0.000099494 0.03391884 Ha=0.00059732 330.167 nm CPU= 26089.9 NT= 350 T= 0.408989858E+01 S1= 0.408989858E+01 S2= 0.408989858E+01 NT= 350 IT= 614 Er=0.000099391 0.03428491 Ha=0.00059776 330.413 nm CPU= 26458.3 NT= 355 IT= 623 Er=0.000099439 0.03461957 Ha=0.00060226 332.898 nm CPU= 26857.9 NT= 360 T= 0.420708766E+01 S1= 0.420708766E+01 S2= 0.420708766E+01 NT= 360 IT= 622 Er=0.000099916 0.03445858 Ha=0.00060807 336.108 nm CPU= 27260.6 NT= 365 IT= 621 Er=0.000099677 0.03401076 Ha=0.00061203 338.297 nm CPU= 27663.8 NT= 370 T= 0.432427673E+01 S1= 0.432427673E+01 S2= 0.432427673E+01 NT= 370 IT= 619 Er=0.000099434 0.03398313 Ha=0.00061309 338.884 nm CPU= 28067.0 NT= 375 IT= 611 Er=0.000099902 0.03411713 Ha=0.00061197 338.267 nm CPU= 28464.2 NT= 380 T= 0.444146581E+01 S1= 0.444146581E+01 S2= 0.444146581E+01 NT= 380 IT= 619 Er=0.000099505 0.03460739 Ha=0.00060943 336.860 nm CPU= 28862.6 NT= 385 IT= 620 Er=0.000099876 0.03455456 Ha=0.00060594 334.931 nm CPU= 29264.9 NT= 390 T= 0.455865488E+01 S1= 0.455865488E+01 S2= 0.455865488E+01 NT= 390 IT= 623 Er=0.000099369 0.03414500 Ha=0.00060170 332.590 nm CPU= 29668.8 NT= 395 IT= 618 Er=0.000099579 0.03396995 Ha=0.00059791 330.492 nm CPU= 30070.2 NT= 400 T= 0.467584396E+01 S1= 0.467584396E+01 S2= 0.467584396E+01 NT= 400 IT= 611 Er=0.000099873 0.03411801 Ha=0.00059724 330.122 nm CPU= 30468.0 NT= 405 IT= 618 Er=0.000099492 0.03457037 Ha=0.00060087 332.130 nm CPU= 30866.3 NT= 410 T= 0.479303303E+01 S1= 0.479303303E+01 S2= 0.479303303E+01 NT= 410 IT= 622 Er=0.000099878 0.03453351 Ha=0.00060669 335.344 nm CPU= 31267.7 NT= 415 IT= 622 Er=0.000099315 0.03410682 Ha=0.00061131 337.901 nm CPU= 31671.6 NT= 420 T= 0.491022211E+01 S1= 0.491022211E+01 S2= 0.491022211E+01 NT= 420 IT= 619 Er=0.000099816 0.03395564 Ha=0.00061307 338.875 nm CPU= 32074.1 NT= 425 IT= 614 Er=0.000099552 0.03410284 Ha=0.00061241 338.511 nm CPU= 32476.8 NT= 430 T= 0.502741119E+01 S1= 0.502741119E+01 S2= 0.502741119E+01 NT= 430 IT= 614 Er=0.000099818 0.03449390 Ha=0.00061018 337.274 nm CPU= 32875.7 NT= 435 IT= 623 Er=0.000099338 0.03456977 Ha=0.00060690 335.462 nm CPU= 33278.6 NT= 440 T= 0.514460026E+01 S1= 0.514460026E+01 S2= 0.514460026E+01 NT= 440 IT= 621 Er=0.000099827 0.03423221 Ha=0.00060282 333.206 nm CPU= 33683.3 NT= 445 IT= 621 Er=0.000099802 0.03401033 Ha=0.00059868 330.920 nm CPU= 34086.6 NT= 450 T= 0.526178934E+01 S1= 0.526178934E+01 S2= 0.526178934E+01 NT= 450 IT= 613 Er=0.000099557 0.03395764 Ha=0.00059699 329.984 nm CPU= 34484.7 NT= 455 IT= 619 Er=0.000099726 0.03454917 Ha=0.00059962 331.437 nm CPU= 34883.8 NT= 460 T= 0.537897841E+01 S1= 0.537897841E+01 S2= 0.537897841E+01 NT= 460 IT= 620 Er=0.000099917 0.03458439 Ha=0.00060521 334.528 nm CPU= 35288.5 NT= 465 IT= 623 Er=0.000099612 0.03425071 Ha=0.00061039 337.393 nm CPU= 35692.7 NT= 470 T= 0.549616749E+01 S1= 0.549616749E+01 S2= 0.549616749E+01 NT= 470 IT= 618 Er=0.000099578 0.03397080 Ha=0.00061289 338.776 nm CPU= 36097.7 NT= 475 IT= 615 Er=0.000099876 0.03404793 Ha=0.00061276 338.700 nm CPU= 36501.8 NT= 480 T= 0.561335656E+01 S1= 0.561335656E+01 S2= 0.561335656E+01 NT= 480 IT= 614 Er=0.000099595 0.03436137 Ha=0.00061086 337.651 nm CPU= 36899.0 NT= 485 IT= 621 Er=0.000099687 0.03461033 Ha=0.00060780 335.963 nm CPU= 37300.1 NT= 490 T= 0.573054564E+01 S1= 0.573054564E+01 S2= 0.573054564E+01 NT= 490 IT= 623 Er=0.000099654 0.03435275 Ha=0.00060391 333.809 nm CPU= 37715.2 NT= 495 IT= 620 Er=0.000099439 0.03401947 Ha=0.00059961 331.433 nm CPU= 38137.3 NT= 500 T= 0.584773472E+01 S1= 0.584773472E+01 S2= 0.584773472E+01 NT= 500 IT= 613 Er=0.000099753 0.03390874 Ha=0.00059703 330.007 nm CPU= 38565.1 IT= 613 Err=.03390874 H0=-0.0385795 HR0=-0.0385795 HHR0=-0.0385797 Pa= 0.93350 NCONT = 5357 ER= 0.00009975 NT= 500 Current X0= -3.4000 HA= 0.000597028 0.173232E-04 330.007 nm Estimated X0= -1.274 Estimated HAs/HA= 1.00000 HMIN= 5.000 nm NTC= 500 KSURF= 2 KFLOOD= 0 KRHEO= 0 KPLMT= 0 KFRCTMP= 0 PLMT= 100.0000 NSTART=-3 KFFT= 1 KHALF= 1 HLIM= 5.000 nm HAA= 0.00000905 KLEV = 4 M = 384 N = 256 Dx = 0.0117188 Dy = 0.0125000 X0 =-3.4000000 Xe = 1.1000000 Y0 =-1.6000000 SUMMARY OF RESULTS: Average Film Thickness at Center: 0.597028E-03 330.0065 nm Minimum Film THickness: 0.904570E-05 5.0000 nm Film Thickness (Lambda) Ratio: 1.32003 Contact Load Ratio Wc: 0.26300 % Contact Area Ratio Ac: 0.88018 % RMS Roughness after Deformation: 0.19932 micron Pressure Peak Height: 1.74579 2967.786407 MPa Inlext Distance X0: 3.400000 Coefficient of Friction: 0.00000000 Max.Flash Temperature Rise - Body A: 0.0000 Deg.C Max.Flash Temperature Rise - Body B: 0.0000 Deg.C Accumulated Wear - Body A: 0.000000E+00 mm**3 Accumulated Wear - Body B: 0.000000E+00 mm**3 Timing Starts at (sec)= 3.4944 Timing stops at (sec) = 38565.4284 Total CPU Time (sec) = 38561.9340