$$$ Current Year: 2010 Month: 2 Day: 22 $$$ **************************************************************************** MIXED ELASTOHYDRODYNAMIC LUBRICATION: A POINT CONTACT CASE INPUT DATA ----------- CASE DESCRIPTION: Sinusoida,l Circular Contact Thick Film Pure Rolling GEOMETRIC PARAMETERS Radius of curvature of Body A in X direction: 15.000000 mm Radius of curvature of Body B in X direction:************ mm Radius of curvature of Body A in Y direction: 15.000000 mm Radius of curvature of Body B in Y direction:************ mm OPERATING CONDITIONS Applied normal load: 400.0000 N Surface velocity of Body A: 20.00000000 m/s Surface velocity of Body B: 20.00000000 m/s Rolling Velocity: 20.00000000 m/s Slide-To-Roll Ratio: 0.00000000 Ambient temperature of Body A: 25.0000 deg.C Ambient temperature of Body B: 25.0000 deg.C MATERIAL PROPERTIES OF TWO BODIES Body A Body B Unit Young's modulus: 206.000000 206.000000 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: 1.060660 micron RMS Roughness of Surface B: 1.060660 micron Composite RMS Roughness: 1.500000 micron Roughness Ratio RQ1/RQ2: 1.000000 DIMENSIONLESS SINUSOIDAL SURFACE PARAMETERS Wavelength of Surface A in Xr1-direction: 0.3000000 Wavelength of Surface A in Yr1-direction: 0.6000000 Wavelength of Surface B in Xr2-direction: 0.3000000 Wavelength of Surface B in Yr2-direction: 0.6000000 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: Mineral Oil Kinematic Viscosity: 37.5000 cSt at 40.000 deg.C 9.7000 cSt at 100.000 deg.C Dynamic Viscosity at Inlet: 0.05500000 Pa.s Pressure-Viscosity Coeff. AL: 25.700000 1/GPa Pressure-viscosity Coeff. AL2: 0.720000 1/GPa Exponent CAK for Power Law: 0.000000 Density at room temperature: 0.880000 g/cm**3 Thermal Conductivity: 0.145000 W/(m.deg.C) Boundary Friction Coefficient: 0.200000 KINEMATIC VISCOSITY EQUATION for 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 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 =0.0550000000 Pa.s AL is the pressure-viscosity exponent AL = 25.70000000 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= 1.6395462 A= 0.34130 B= 0.34130 K= 1.00000 561 E0= 226.37363 RX= 15.0000 RY= 15.0000 PLMT= ********* GPa NTC= 500 KSURF= 2 KFLOOD= 0 KRHEO= 0 KPLMT= 0 KFRCTMP= 2 PLMT= 100.0000 NSTART=-3 KFFT= 1 KHALF= 1 HLIM= 0.000 nm HAA= 0.00000000 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 32 / 32 Delta_S1= 0.0117191 Delta_S2= 0.0117191 Delta_T= 0.0117191 X0 = -1.9000 Y0 = -1.5000 from Smooth.dat X0P = -1.9000 Y0P = -1.5000 from Pres.dat Estimated X0= -2.616586 Estimated HCs/HC= 0.843794 Dimensionless Hc From File = 0.161141E-03 WAx1= 0.30000 WAy1= 0.60000 THE1= 0.00 degree WAx2= 0.30000 WAy2= 0.60000 THE2= 0.00 degree phase difference in X-direction: 0.00000 phase difference in Y-direction: 0.00000 Ra1 = 0.8597 Rq1 = 1.0607 Rt1 = 2.1213 micron Ra2 = 0.8597 Rq2 = 1.0607 Rt2 = 2.1213 micron Sig = 1.5000 RSig= 1.0000 Rq1 = 1.0607 Rq2 = 1.0607 NTC= 500 NTC1= -179 NTC2= -179 0.198866 0.198866 Dimensionless Parameters and Film Thickness Estimates by Conventional Theories for Point Contacts: Material Parameter GR = 5817.80262 Speed Parameter UR =0.323948E-09 Load Parameter WR =0.785329E-05 Viscosity Parameter Gv =0.268512E+08 Elasticity Parameter Ge =0.232195E+06 Load Parameter M =0.611537E+02 Materials Parameter L =0.293518E+02 Ellipticity Parameter K = 1.000000 Slide-To-Roll Ratio S = 0.000000 Hc from EHL Theory =0.181114E-03 2716.7035 nm Hm from EHL Theory =0.104138E-03 1562.0630 nm Hc from Isovisc-Rigid Theory =0.238409E-06 3.5761 nm Hc from Piezovisc-Rigid Theory =0.577521E-05 86.6281 nm Hc from Isovisc-Elastic Theory =0.340449E-04 510.6740 nm Hm from Isovisc-Elastic Theory =0.219449E-04 329.1741 nm Film Thickness Hc(Ge,Gv)=0.106440E+06 Film Thickness Hm(Ge,Gv)=0.612012E+05 Film Thickness Hc(M,L) =0.711538E+01 Film Thickness Hm(M,L) =0.409124E+01 Nominal Lambda Ratio = 3.222811 Inlet Distance X0 = 1.900000 Outlet Distance Xe = 1.100000 Lateral Distance Y0 = 1.500000 Minimum X0 Required for Flooded= 2.616586 Ratio of HcActual to HcFlood = 0.843794 Pressure-Viscosity Relation: Barus Law, AL= 25.7000012 Calculated Load/Input Load = 0.99999951 KLEV = 4 Calculated Load/Input Load = 0.99999951 KLEV = 4 FW =-.254636E-01 KLEV = 4 M = 256 N = 256 Dx = 0.0117188 Dy = 0.0117188 X0 =-1.9000000 Xe = 1.1000000 Y0 =-1.5000000 Timing Starts (sec)= 2.52721620000000 Calculated Load/Input Load = 0.99999951 KLEV = 4 After Read 49 Before W cycle started NT= 5 IT= 236 Er=0.000099877 0.00161456 Ha=0.00707497 2414.703 nm CPU= 75.8 NT= 10 T= 0.105470008E+00 S1= 0.105470008E+00 S2= 0.105470008E+00 NT= 10 IT= 343 Er=0.000099887 0.00379352 Ha=0.00700278 2390.063 nm CPU= 199.4 NT= 15 IT= 452 Er=0.000099975 0.00699098 Ha=0.00702687 2398.286 nm CPU= 379.8 NT= 20 T= 0.222659082E+00 S1= 0.222659082E+00 S2= 0.222659082E+00 NT= 20 IT= 515 Er=0.000099726 0.01018861 Ha=0.00719790 2456.659 nm CPU= 599.2 NT= 25 IT= 580 Er=0.000099317 0.01514375 Ha=0.00728389 2486.005 nm CPU= 843.3 NT= 30 T= 0.339848155E+00 S1= 0.339848155E+00 S2= 0.339848155E+00 NT= 30 IT= 520 Er=0.000099442 0.01951626 Ha=0.00708941 2419.630 nm CPU= 1085.3 NT= 35 IT= 511 Er=0.000099466 0.02455361 Ha=0.00686365 2342.578 nm CPU= 1311.0 NT= 40 T= 0.457037228E+00 S1= 0.457037228E+00 S2= 0.457037228E+00 NT= 40 IT= 576 Er=0.000099809 0.02945315 Ha=0.00694627 2370.775 nm CPU= 1553.6 NT= 45 IT= 630 Er=0.000099834 0.03407155 Ha=0.00722993 2467.588 nm CPU= 1825.6 NT= 50 T= 0.574226301E+00 S1= 0.574226301E+00 S2= 0.574226301E+00 NT= 50 IT= 592 Er=0.000099642 0.03730803 Ha=0.00734192 2505.812 nm CPU= 2097.8 NT= 55 IT= 572 Er=0.000099694 0.04041955 Ha=0.00713896 2436.543 nm CPU= 2361.9 NT= 60 T= 0.691415374E+00 S1= 0.691415374E+00 S2= 0.691415374E+00 NT= 60 IT= 520 Er=0.000099788 0.04349622 Ha=0.00689273 2352.503 nm CPU= 2601.9 NT= 65 IT= 552 Er=0.000099706 0.04746424 Ha=0.00692676 2364.117 nm CPU= 2852.1 NT= 70 T= 0.808604447E+00 S1= 0.808604447E+00 S2= 0.808604447E+00 NT= 70 IT= 670 Er=0.000099959 0.05161298 Ha=0.00719441 2455.468 nm CPU= 3157.1 NT= 75 IT= 607 Er=0.000099966 0.05425899 Ha=0.00733990 2505.121 nm CPU= 3478.5 NT= 80 T= 0.925793520E+00 S1= 0.925793520E+00 S2= 0.925793520E+00 NT= 80 IT= 603 Er=0.000099998 0.05738512 Ha=0.00716715 2446.161 nm CPU= 3775.4 NT= 85 IT= 531 Er=0.000099703 0.05964170 Ha=0.00689280 2352.527 nm CPU= 4038.9 NT= 90 T= 0.104298259E+01 S1= 0.104298259E+01 S2= 0.104298259E+01 NT= 90 IT= 538 Er=0.000099777 0.06287439 Ha=0.00685577 2339.886 nm CPU= 4298.5 NT= 95 IT= 674 Er=0.000099933 0.06649998 Ha=0.00707418 2414.432 nm CPU= 4594.6 NT= 100 T= 0.116017167E+01 S1= 0.116017167E+01 S2= 0.116017167E+01 NT= 100 IT= 627 Er=0.000099956 0.06913878 Ha=0.00722002 2464.207 nm CPU= 4918.4 NT= 105 IT= 603 Er=0.000099999 0.07205620 Ha=0.00705570 2408.125 nm CPU= 5189.9 NT= 110 T= 0.127736074E+01 S1= 0.127736074E+01 S2= 0.127736074E+01 NT= 110 IT= 539 Er=0.000099924 0.07390526 Ha=0.00674283 2301.340 nm CPU= 5450.9 NT= 115 IT= 538 Er=0.000099612 0.07673669 Ha=0.00662944 2262.640 nm CPU= 5696.2 NT= 120 T= 0.139454981E+01 S1= 0.139454981E+01 S2= 0.139454981E+01 NT= 120 IT= 635 Er=0.000099785 0.07971273 Ha=0.00679540 2319.284 nm CPU= 5960.6 NT= 125 IT= 626 Er=0.000099797 0.08239124 Ha=0.00694545 2370.496 nm CPU= 6262.9 NT= 130 T= 0.151173889E+01 S1= 0.151173889E+01 S2= 0.151173889E+01 NT= 130 IT= 579 Er=0.000099846 0.08512871 Ha=0.00680528 2322.655 nm CPU= 6525.3 NT= 135 IT= 567 Er=0.000099773 0.08710762 Ha=0.00648349 2212.829 nm CPU= 6780.4 NT= 140 T= 0.162892796E+01 S1= 0.162892796E+01 S2= 0.162892796E+01 NT= 140 IT= 540 Er=0.000099965 0.08919089 Ha=0.00632094 2157.350 nm CPU= 7010.2 NT= 145 IT= 600 Er=0.000099856 0.09180330 Ha=0.00644635 2200.152 nm CPU= 7248.7 NT= 150 T= 0.174611703E+01 S1= 0.174611703E+01 S2= 0.174611703E+01 NT= 150 IT= 670 Er=0.000099943 0.09450500 Ha=0.00660911 2255.703 nm CPU= 7531.4 NT= 155 IT= 555 Er=0.000099991 0.09666192 Ha=0.00651462 2223.454 nm CPU= 7775.9 NT= 160 T= 0.186330611E+01 S1= 0.186330611E+01 S2= 0.186330611E+01 NT= 160 IT= 595 Er=0.000099671 0.09867311 Ha=0.00621422 2120.926 nm CPU= 8025.5 NT= 165 IT= 558 Er=0.000099976 0.10012521 Ha=0.00603110 2058.425 nm CPU= 8265.3 NT= 170 T= 0.198049518E+01 S1= 0.198049518E+01 S2= 0.198049518E+01 NT= 170 IT= 575 Er=0.000099744 0.10170053 Ha=0.00613884 2095.197 nm CPU= 8505.0 NT= 175 IT= 691 Er=0.000099973 0.10316169 Ha=0.00633194 2161.105 nm CPU= 8782.1 NT= 180 T= 0.209768425E+01 S1= 0.209768425E+01 S2= 0.209768425E+01 NT= 180 IT= 551 Er=0.000099605 0.10345060 Ha=0.00629953 2150.042 nm CPU= 9039.3 NT= 185 IT= 591 Er=0.000099846 0.10524945 Ha=0.00603622 2060.174 nm CPU= 9284.4 NT= 190 T= 0.221487332E+01 S1= 0.221487332E+01 S2= 0.221487332E+01 NT= 190 IT= 588 Er=0.000099837 0.10649441 Ha=0.00584331 1994.332 nm CPU= 9535.3 NT= 195 IT= 563 Er=0.000099869 0.10741403 Ha=0.00593667 2026.197 nm CPU= 9771.9 NT= 200 T= 0.233206240E+01 S1= 0.233206240E+01 S2= 0.233206240E+01 NT= 200 IT= 696 Er=0.000099924 0.10775472 Ha=0.00615776 2101.654 nm CPU= 10038.0 NT= 205 IT= 571 Er=0.000099681 0.10685022 Ha=0.00618066 2109.473 nm CPU= 10301.6 NT= 210 T= 0.244925147E+01 S1= 0.244925147E+01 S2= 0.244925147E+01 NT= 210 IT= 568 Er=0.000099717 0.10789697 Ha=0.00594956 2030.596 nm CPU= 10538.7 NT= 215 IT= 580 Er=0.000099912 0.10896357 Ha=0.00574602 1961.127 nm CPU= 10776.7 NT= 220 T= 0.256644054E+01 S1= 0.256644054E+01 S2= 0.256644054E+01 NT= 220 IT= 556 Er=0.000099831 0.10962774 Ha=0.00581839 1985.829 nm CPU= 11010.5 NT= 225 IT= 650 Er=0.000099771 0.10917740 Ha=0.00605265 2065.781 nm CPU= 11265.1 NT= 230 T= 0.268362962E+01 S1= 0.268362962E+01 S2= 0.268362962E+01 NT= 230 IT= 563 Er=0.000099669 0.10807124 Ha=0.00611970 2088.667 nm CPU= 11531.8 NT= 235 IT= 547 Er=0.000099832 0.10889287 Ha=0.00591725 2019.568 nm CPU= 11768.1 NT= 240 T= 0.280081869E+01 S1= 0.280081869E+01 S2= 0.280081869E+01 NT= 240 IT= 533 Er=0.000099761 0.10995584 Ha=0.00570041 1945.563 nm CPU= 11992.4 NT= 245 IT= 551 Er=0.000099842 0.11031782 Ha=0.00574467 1960.667 nm CPU= 12225.0 NT= 250 T= 0.291800776E+01 S1= 0.291800776E+01 S2= 0.291800776E+01 NT= 250 IT= 629 Er=0.000099984 0.10980326 Ha=0.00598276 2041.929 nm CPU= 12473.9 NT= 255 IT= 557 Er=0.000099828 0.10898763 Ha=0.00609058 2078.727 nm CPU= 12738.7 NT= 260 T= 0.303519684E+01 S1= 0.303519684E+01 S2= 0.303519684E+01 NT= 260 IT= 547 Er=0.000099993 0.10922803 Ha=0.00591951 2020.339 nm CPU= 12975.4 NT= 265 IT= 526 Er=0.000099911 0.11039249 Ha=0.00568678 1940.908 nm CPU= 13197.6 NT= 270 T= 0.315238591E+01 S1= 0.315238591E+01 S2= 0.315238591E+01 NT= 270 IT= 546 Er=0.000099997 0.11084826 Ha=0.00569139 1942.482 nm CPU= 13426.2 NT= 275 IT= 610 Er=0.000099734 0.11030846 Ha=0.00592141 2020.989 nm CPU= 13671.5 NT= 280 T= 0.326957498E+01 S1= 0.326957498E+01 S2= 0.326957498E+01 NT= 280 IT= 585 Er=0.000099835 0.10955374 Ha=0.00606388 2069.615 nm CPU= 13934.7 NT= 285 IT= 552 Er=0.000099778 0.10976964 Ha=0.00592351 2021.706 nm CPU= 14173.2 NT= 290 T= 0.338676406E+01 S1= 0.338676406E+01 S2= 0.338676406E+01 NT= 290 IT= 511 Er=0.000099988 0.11087339 Ha=0.00568096 1938.923 nm CPU= 14393.8 NT= 295 IT= 540 Er=0.000099823 0.11130165 Ha=0.00564976 1928.275 nm CPU= 14620.6 NT= 300 T= 0.350395313E+01 S1= 0.350395313E+01 S2= 0.350395313E+01 NT= 300 IT= 603 Er=0.000099840 0.11086186 Ha=0.00586594 2002.058 nm CPU= 14864.9 NT= 305 IT= 598 Er=0.000099694 0.11011403 Ha=0.00603510 2059.793 nm CPU= 15123.0 NT= 310 T= 0.362114220E+01 S1= 0.362114220E+01 S2= 0.362114220E+01 NT= 310 IT= 559 Er=0.000099902 0.11019718 Ha=0.00592552 2022.391 nm CPU= 15362.6 NT= 315 IT= 507 Er=0.000099947 0.11118385 Ha=0.00567679 1937.500 nm CPU= 15585.3 NT= 320 T= 0.373833128E+01 S1= 0.373833128E+01 S2= 0.373833128E+01 NT= 320 IT= 536 Er=0.000099907 0.11186908 Ha=0.00560986 1914.657 nm CPU= 15809.6 NT= 325 IT= 595 Er=0.000099809 0.11142750 Ha=0.00580769 1982.177 nm CPU= 16050.0 NT= 330 T= 0.385552035E+01 S1= 0.385552035E+01 S2= 0.385552035E+01 NT= 330 IT= 594 Er=0.000099851 0.11067154 Ha=0.00600144 2048.305 nm CPU= 16307.0 NT= 335 IT= 571 Er=0.000099777 0.11050186 Ha=0.00592899 2023.576 nm CPU= 16550.1 NT= 340 T= 0.397270942E+01 S1= 0.397270942E+01 S2= 0.397270942E+01 NT= 340 IT= 508 Er=0.000099742 0.11135651 Ha=0.00567997 1938.586 nm CPU= 16775.5 NT= 345 IT= 534 Er=0.000099971 0.11213787 Ha=0.00557415 1902.468 nm CPU= 16997.8 NT= 350 T= 0.408989849E+01 S1= 0.408989849E+01 S2= 0.408989849E+01 NT= 350 IT= 584 Er=0.000099738 0.11189813 Ha=0.00574597 1961.113 nm CPU= 17235.0 NT= 355 IT= 591 Er=0.000099833 0.11117280 Ha=0.00596129 2034.602 nm CPU= 17490.5 NT= 360 T= 0.420708757E+01 S1= 0.420708757E+01 S2= 0.420708757E+01 NT= 360 IT= 576 Er=0.000099677 0.11098283 Ha=0.00592753 2023.078 nm CPU= 17734.2 NT= 365 IT= 510 Er=0.000099886 0.11159734 Ha=0.00568591 1940.613 nm CPU= 17963.0 NT= 370 T= 0.432427664E+01 S1= 0.432427664E+01 S2= 0.432427664E+01 NT= 370 IT= 526 Er=0.000099793 0.11255261 Ha=0.00555029 1894.326 nm CPU= 18184.1 NT= 375 IT= 572 Er=0.000099765 0.11238572 Ha=0.00569646 1944.213 nm CPU= 18418.9 NT= 380 T= 0.444146571E+01 S1= 0.444146571E+01 S2= 0.444146571E+01 NT= 380 IT= 596 Er=0.000099902 0.11159614 Ha=0.00592657 2022.752 nm CPU= 18664.4 NT= 385 IT= 563 Er=0.000099614 0.11129667 Ha=0.00592984 2023.866 nm CPU= 18898.2 NT= 390 T= 0.455865479E+01 S1= 0.455865479E+01 S2= 0.455865479E+01 NT= 390 IT= 515 Er=0.000099601 0.11174040 Ha=0.00569987 1945.378 nm CPU= 19121.3 NT= 395 IT= 528 Er=0.000099857 0.11295803 Ha=0.00553684 1889.733 nm CPU= 19333.8 NT= 400 T= 0.467584386E+01 S1= 0.467584386E+01 S2= 0.467584386E+01 NT= 400 IT= 560 Er=0.000099659 0.11272693 Ha=0.00565399 1929.719 nm CPU= 19555.9 NT= 405 IT= 602 Er=0.000099904 0.11204825 Ha=0.00589430 2011.736 nm CPU= 19799.1 NT= 410 T= 0.479303293E+01 S1= 0.479303293E+01 S2= 0.479303293E+01 NT= 410 IT= 559 Er=0.000099579 0.11153985 Ha=0.00593727 2026.403 nm CPU= 20034.6 NT= 415 IT= 518 Er=0.000099927 0.11157512 Ha=0.00572557 1954.149 nm CPU= 20263.0 NT= 420 T= 0.491022201E+01 S1= 0.491022201E+01 S2= 0.491022201E+01 NT= 420 IT= 517 Er=0.000099956 0.11284418 Ha=0.00553435 1888.884 nm CPU= 20459.2 NT= 425 IT= 552 Er=0.000099879 0.11274890 Ha=0.00561395 1916.051 nm CPU= 20685.8 NT= 430 T= 0.502741108E+01 S1= 0.502741108E+01 S2= 0.502741108E+01 NT= 430 IT= 602 Er=0.000099819 0.11210632 Ha=0.00585786 1999.300 nm CPU= 20937.5 NT= 435 IT= 556 Er=0.000099782 0.11165564 Ha=0.00593930 2027.096 nm CPU= 21181.5 NT= 440 T= 0.514460015E+01 S1= 0.514460015E+01 S2= 0.514460015E+01 NT= 440 IT= 527 Er=0.000099514 0.11177758 Ha=0.00574995 1962.468 nm CPU= 21414.9 NT= 445 IT= 519 Er=0.000099923 0.11299105 Ha=0.00553945 1890.625 nm CPU= 21631.7 NT= 450 T= 0.526178923E+01 S1= 0.526178923E+01 S2= 0.526178923E+01 NT= 450 IT= 547 Er=0.000099836 0.11300630 Ha=0.00558488 1906.131 nm CPU= 21866.3 NT= 455 IT= 602 Er=0.000099986 0.11236697 Ha=0.00582633 1988.539 nm CPU= 22120.8 NT= 460 T= 0.537897830E+01 S1= 0.537897830E+01 S2= 0.537897830E+01 NT= 460 IT= 553 Er=0.000099881 0.11181635 Ha=0.00594106 2027.694 nm CPU= 22367.8 NT= 465 IT= 539 Er=0.000099751 0.11178375 Ha=0.00577654 1971.544 nm CPU= 22621.8 NT= 470 T= 0.549616737E+01 S1= 0.549616737E+01 S2= 0.549616737E+01 NT= 470 IT= 508 Er=0.000099972 0.11299356 Ha=0.00555043 1894.372 nm CPU= 22852.0 NT= 475 IT= 543 Er=0.000099660 0.11311868 Ha=0.00556038 1897.769 nm CPU= 23096.9 NT= 480 T= 0.561335644E+01 S1= 0.561335644E+01 S2= 0.561335644E+01 NT= 480 IT= 603 Er=0.000099752 0.11255473 Ha=0.00579426 1977.593 nm CPU= 23366.3 NT= 485 IT= 579 Er=0.000099963 0.11185125 Ha=0.00594158 2027.875 nm CPU= 23641.4 NT= 490 T= 0.573054552E+01 S1= 0.573054552E+01 S2= 0.573054552E+01 NT= 490 IT= 547 Er=0.000099915 0.11186256 Ha=0.00580855 1982.470 nm CPU= 23901.8 NT= 495 IT= 503 Er=0.000099837 0.11284857 Ha=0.00556970 1900.951 nm CPU= 24138.1 NT= 500 T= 0.584773459E+01 S1= 0.584773459E+01 S2= 0.584773459E+01 NT= 500 IT= 539 Er=0.000099826 0.11310100 Ha=0.00553787 1890.088 nm CPU= 24381.1 IT= 539 Err=.11310100 H0=-0.0169709 HR0=-0.0169693 HHR0=-0.0169709 Pa= 0.95497 NCONT = 5725 ER= 0.00009983 NT= 500 Max. von Mises Stress = 1.005330 at X=-0.411719 Y= 0.000000 Z= 0.040000 NT= 500 Current X0= -1.9000 HA= 0.005537875 0.126006E-03 1890.088 nm Estimated X0= -2.617 Estimated HAs/HA= 0.84379 HMIN= 0.000 nm NTC= 500 KSURF= 2 KFLOOD= 0 KRHEO= 0 KPLMT= 0 KFRCTMP= 2 PLMT= 100.0000 NSTART=-3 KFFT= 1 KHALF= 1 HLIM= 0.000 nm HAA= 0.00000000 KLEV = 4 M = 256 N = 256 Dx = 0.0117188 Dy = 0.0117188 X0 =-1.9000000 Xe = 1.1000000 Y0 =-1.5000000 SUMMARY OF RESULTS: Average Film Thickness at Center: 0.553787E-02 1890.0879 nm Minimum Film THickness: 0.000000E+00 0.0000 nm Film Thickness (Lambda) Ratio: 2.52012 Contact Load Ratio Wc: 0.59762 % Contact Area Ratio Ac: 0.65061 % RMS Roughness after Deformation: 0.90437 micron Pressure Peak Height: 2.14143 3510.979165 MPa Inlext Distance X0: 1.900000 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)= 2.5272 Timing stops at (sec) = 24465.6992 Total CPU Time (sec) = 24463.1720