dallara F308 Manual
Also see for F308: Owner's manual
15 POWER FLOW DIFFERENTIAL (Hewland)This differential is designed with versatility as its major asset. Many parameters will lead you to therequired setting. A car with good grip and limited power requires a very different arrangement thanthat required for a high poor grip/high power car.Working principles: Ten friction plates within the diff, six connected to the side gears, four to the diffcasing, control the amount of ‘differential’ action. The amount oflimited slip only depends on the friction forcebetween these ten plates.Four factors contribute to the level of this friction force:1. The bevel gears thrust apart as soon as the car moves. This is a feature of bevel gears and is notadjustable. The contribution of this on friction is minimal.2. The ramp angle on the side gear ring influences the amount of the driving force on the diff that getsdirected sideways and onto the plates. E.g. on the power/drive side ramp, 60 degrees transmits less forcesideways than a 30 degree ramp. Likewise, on the off-power side ramp, an 80 degrees angle will transmitlittle force while 45 degrees locks more. 60°/80° is fitted as standard;3. The pre-load with which they are assembled to start. In each diff there is a pre-load spacer that looks likeone of the B plates, but thicker. Depending on diff model, it is either the first or the last componentassembled into the diff casing. Its thickness dictates to what degree the plates are pre-loaded / forcedagainst each other. The pre-load is set and checked on each diff by holding one side gear locked, via adummy output shaft locked in a vice, and by turning the other with a torque wrench. If the measuredresistance is deemed too high, the spacer is ground down until the desired figure is achieved. The preloadshould be checked periodically as it tends to reduce as the diff runs, meanwhile a slightly thicker spacer willallow re-setting;4. The re-arrangement of the order of the friction discs. The arrangement 1, with a disc succession A, B, A, B,A, has the maximum number of working friction faces. It gives the maximum resisting torque. Thearrangement 3 has the minimum of working friction faces and gives the minimum resisting torque.Standard Hewland available ramp angles are: 30/60; 45/45; 45/80; 60/80; 80/80; optional: ramps including 70Differential settings have an important influence on the car’s balance throughout the corner. Also handling isaffected, especially so on corner turn-in and exit.¾ The torque on the differential in drive (acceleration) is much bigger than the torque on the differentialgiven by the engine brake (deceleration). Typical in line acceleration gets to about 1g starting from arelatively low speed, off-power/braking by the engine only gets typically up to 0.3g.¾ The disc configuration (2, 4 or 6 faces) has the same effect on drive and off-power, the ramps are theonly tool to differentiate the friction force or ‘lock’ between drive and brake.¾ The discs wear off, just as a clutch, and should get checked regularly. This also means that the pre-load is ‘wearing’ down, faster so when using the 2 friction discs configuration and significantly lesswhen using 6 friction faces.¾ Pre-load is kind of a ‘constant lock’ and the effect is felt in slow and fast corners in entry, mid-cornerand exit. The ramps and disc configurations typically have more effect in slow and less in fast corners,and affect corner entry and exit, less so mid-corner.¾ Pre-load locks the differential (both wheels turn at the same speed) until the difference in torque ishigher than the pre-load. Once passed the pre-load, the remaining lock is achieved by the ramps anddisc configuration mainly.¾ Most circuits require little lock to prevent the inner wheel from spinning coming out of corners,depending though on tyres, track, driving style and weather conditions. Excessive lock might result inpower understeer.¾ Some amount of lock in off-power helps to stabilize the rear end, excessive lock might cause turn-inundersteer.This table shows the % of lock from minimum to maximum lock.Lock%= (slower wheel torque – faster wheel torque)/ total torqueLOCK% 2.5 5.0 7.0 9.5 11 12.0 15.5 18.0 24.0 25.0 33.5 42.0 44.0 55.0 68.5RAMP 80 80 70 80 70 60 70 60 45 60 45 30 45 30 30DISCS 2 4 2 6 4 2 6 4 2 6 4 2 6 4 6 |
Related manuals for dallara F308
This manual is suitable for:
manualsdatabase
Your AI-powered manual search engine