Useful formulasfor Power calculationUnit:T.:n发动机功率P。[kW]taP。9550发动机转矩Tta[N·m]发动机转速n[r/min]Clew :P,=T.n, Unit: P。[W] ; Ttq [N-m]; n[rad/s]radian:弧度1T..n2元tq1000P =Tn=pX9550, Unit: P。[kW] ; Ttq[N-m]; n[r/min]。tq606Chapter1 AccelerationPerformance
Chapter 1 Acceleration Performance Useful formulas for Power calculation Unit: 发动机功率Pe [kW] 发动机转矩Ttq [N·m] 发动机转速n[r/min] 9550 tq e T n P Clew : ,Unit:Pe [W] ;Ttq [N·m];n[rad/s] radian:弧度 , Unit:Pe [kW] ;Ttq[N·m]; n[r/min]。 P T n e tq 2 1000 60 9550 tq e tq e T n P T n P 6
(2)EfficienciesofDriveline(Transmission)传动系统机械效率The necessity of the introduction of nr :The inefficiencies due to mechanical and viscous losses inthe driveline components (gear box, propeller shaft; finaldrive:differential and axles).Theseacttoreducetheenginetorqueinproportiontotheproductsofthe efficienciesoftheindividualcomponents传动系统部件的机械和液力损失是造成的效率降低主要原因。各部分效率的乘积即总的传动系统机械效率。nr (combined efficiency of driveline)consists of four primary parts:Nr = NclutchN final-drivegear-boxpropeller-shaft离合器变速器传动轴主减速器GenerallyNr equal to 0.9~0.92 for a car.nr equal to 0.82~0.85 for a truck or a bus.7Chapter1AccelerationPerformance
Chapter 1 Acceleration Performance (2)Efficiencies of Driveline(Transmission) 传动系统机械效率 • The necessity of the introduction of : The inefficiencies due to mechanical and viscous losses in the driveline components(gear box; propeller shaft; final drive; differential and axles). These act to reduce the engine torque in proportion to the products of the efficiencies of the individual components. • 传动系统部件的机械和液力损失是造成的效率降低主要原 因。各部分效率的乘积即总的传动系统机械效率。 • (combined efficiency of driveline) consists of four primary parts: 离合器 变速器 传动轴 主减速器 t T clutch propeller sha gear box final driv ft e T T Generally, equal to 0.9~0.92 for a car. equal to 0.82~0.85 for a truck or a bus. T T 7
(3) Tire RadiusDefinition:NominalRadius(名义半径、自由半径):theradiusoftirewithoutload(sparetire备胎radius)StaticLoadedRadius(静力半径)一r:thedistancefrom the center of static tire to the contact point withground under vertical load only.RollingRadius(滚动半径)一r.:theradiuswhichismeasured by S(distance passed by vehicle) and n (rollingnumbers).S=2元r, nC.~r~rn-the total rollingnumbers of this一tireradius.统称车轮半径Cdistance8Chapter1AccelerationPerformance
Chapter 1 Acceleration Performance (3)Tire Radius Definition: • Nominal Radius(名义半径、自由半径):the radius of tire without load (spare tire 备胎 radius). • Static Loaded Radius(静力半径)— :the distance from the center of static tire to the contact point with ground under vertical load only. • Rolling Radius(滚动半径)— : the radius which is measured by S (distance passed by vehicle)and n (rolling numbers). 2 r S r n s r r r s r r r r r——tire radius,统称车轮半径 8
(4)GraphofTractiveForce(驱动力图)F~ua. How to make tractive force~vehicle speed characteristicsgraph:1)Mathematical conversionbetween n(Engine revolutionspeed [r/min]) and ua (Vehicle speed [km/h])1n×60×2元r×uu1000LOT22r.nu.=0.377.iog019Chapter1AccelerationPerformance
Chapter 1 Acceleration Performance (4)Graph of Tractive Force(驱动力图) • How to make tractive force~vehicle speed characteristics graph: 1)Mathematical conversion between n (Engine revolution speed [r/min]) and (Vehicle speed [km/h]) 1000 1 60 2 0 r i i n u g a a u 0 0.377 i i r n u g a Ft ~ ua u r Tt 9
2) Make the graphTwobasicformulasformakingthegraphTaigionrr·n=0.377uigioMakethetractiveforcelineofeachgear(givenig)ofthevehicle(giveni &givenrandgivennr):.oc Taαnua10Chapter1AccelerationPerformance
Chapter 1 Acceleration Performance 2)Make the graph • Two basic formulas for making the graph: • Make the tractive force line of each gear (given ) of the vehicle(given & given r and given ): 0 0 0.377 i i r n u r T i i F g a tq g T t g i 0 i T t tq a F T u n 10