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A fixed gear ratio reduces the output speed from the transmission. Torque rises approximately in proportion, minus mechanical losses.
The differential then divides rotation between left and right wheels. Both functions are often packaged together but remain conceptually distinct.
| Layout | Gear arrangement | Housing | Service feature |
|---|---|---|---|
| Front-wheel-drive transaxle | Helical reduction into differential ring gear. | Integrated gearbox case. | Shares or separates transmission lubricant. |
| Rear live axle | Hypoid pinion and crownwheel. | Axle centre with tubes. | Pinion depth, carrier and half-shafts. |
| Independent rear differential | Hypoid or spiral-bevel gear set. | Subframe-mounted case. | Mounts, output flanges and breather. |
| Four-wheel-drive front/rear units | Matched axle reductions. | Separate or integrated housings. | Ratio must match across system. |
| Electric drive unit | Single/multi-stage helical reduction. | Motor/inverter/transaxle assembly. | High-speed bearings and electrical isolation. |
| Hub reduction/heavy duty | Planetary gears at wheel end. | Hub casing. | Extra reduction after axle differential. |
Dividing ring-gear teeth by pinion teeth gives the nominal ratio. A higher numerical ratio multiplies torque more and raises motor/engine speed at a given road speed.
Ratio affects speedometer, control software, emissions and shift behaviour. Do not mix gears or rely on tyre size to disguise an incorrect axle.
Spiral teeth engage gradually for strength and quietness. A hypoid pinion sits offset from the ring-gear centre, improving packaging and contact.
Hypoid sliding demands extreme-pressure lubricant and precise tooth pattern. Generic gear oil may not satisfy materials or limited-slip elements.
Ring gear and pinion are lapped or manufactured as a pair. Identification marks and pinion-depth corrections belong together.
Never install a used pinion with a different ring gear. Established wear patterns will not align and noise/failure is likely.
| Differential | Torque behaviour | Additional service need |
|---|---|---|
| Open | Allows speed difference; torque limited by low-grip side. | Spider gears, thrust washers and bearings. |
| Plate limited-slip | Clutch packs resist wheel-speed difference. | Friction-modifier and preload specification. |
| Helical limited-slip | Biases torque through helical friction. | Compatible oil and gear inspection. |
| Viscous coupling | Silicone fluid responds to sustained speed difference. | Sealed coupling condition. |
| Electronically controlled | Actuator varies clutch engagement. | Fluid, coding, pump and calibration. |
| Locking differential | Mechanically locks shafts together. | Actuator and safe engagement control. |
Pinion bearings support high radial and axial loads; carrier bearings locate the ring gear. Preload removes clearance and stabilises tooth position.
New and used bearings may have different turning-torque targets. Seal drag and lubricant state must be accounted for by the procedure.
Depth locates the pinion relative to the ring-gear centreline. Selective shims or housing adjusters set it.
Markings provide a starting correction, but the final contact pattern and measurement confirm setup. Depth error cannot be fixed by backlash alone.
Backlash is clearance between mating teeth measured at the ring gear. It allows lubrication and thermal expansion.
Too little creates heat and binding; too much produces impact and clunk. Measure at several ring positions to reveal runout.
Apply approved marking compound and load the gears in drive and coast directions. The pattern reveals depth and backlash interaction.
Interpretation depends on gear design and whether parts are new or used. Do not chase an artistic centre without the axle-specific chart.
| Condition | Final-drive possibility | Alternative |
|---|---|---|
| Whine on acceleration | Drive-side pattern, pinion or bearings. | Gearbox or propeller-shaft frequency. |
| Whine on overrun | Coast-side setup or pinion bearing. | Transmission gear mesh. |
| Rumble with road speed | Carrier/output bearing. | Wheel bearing or tyres. |
| Clunk on load reversal | Backlash, splines or mount movement. | CV joints, propshaft or engine mounts. |
| Chatter on tight turns | Limited-slip fluid/clutches. | Tyre mismatch or four-wheel-drive wind-up. |
| Noise after seal change | Lost pinion preload. | Flange/contact or unrelated source. |
Use viscosity and performance approval specified for the gear geometry, temperature and differential. Some oils can attack yellow metals or alter clutch friction.
Add limited-slip modifier only where instructed and in controlled quantity. Too much can reduce intended locking performance.
Record level and leakage before draining. Inspect magnetic plugs and filter the oil through suitable material to identify particles.
Fine paste can reflect normal wear; chips, rollers or bronze fragments demand dismantling. Milky oil indicates water entry.
Pinion, output and cover seals can leak, but blocked breathers or worn bearings may be the cause. Clean and locate the first fresh point.
A grooved flange or excessive shaft movement defeats a new seal. Check runout, surface and venting.
Incorrect axle ratio or tyre rolling circumference creates continuous centre-coupling slip or driveline wind-up. Heat and gear damage follow.
Verify axle tags, tooth counts, software coding and all four tyre sizes before commissioning. Never mix ratios for temporary mobility.
Mark propeller-shaft relationships, support the differential or axle with rated equipment and release stored parking-brake and driveline loads.
Heavy units shift as the last mount is removed. Keep clear and never suspend them from hoses, wiring or driveshafts.
Measure rotating torque before dismantling where a seal-only procedure uses it. Counter-hold the flange with the dedicated tool.
Do not tighten the nut merely until play disappears. Collapsible spacers and preload require the exact staged method and normally new hardware.
Use pullers and presses with adaptors on the correct race. Protect shim faces and record every original location.
Heating a bearing or housing is acceptable only within specified temperature and cleanliness limits. Never flame-heat hardened gears.
| Stage | Measurement | Control achieved |
|---|---|---|
| Housing inspection | Bores, faces, runout and alignment. | Sound foundation. |
| Pinion installation | Depth shim and bearing preload. | Pinion position/stability. |
| Carrier installation | Bearing preload and ring runout. | Ring-gear support. |
| Backlash setting | Dial indicator around circumference. | Mesh clearance. |
| Pattern check | Drive/coast tooth marking. | Contact position. |
| Final verification | Turning torque and repeat backlash. | Consistent complete assembly. |
Prepare flanges without abrasive debris and use the specified gasket or sealant bead. Ensure oil channels and breathers remain open.
Tighten cover bolts in sequence and wait for cure where required. Excess sealant can circulate into bearings.
High-speed motor reduction gears create different frequencies and can share coolant or specialised lubricant boundaries. Noise diagnosis may involve inverter control.
Apply high-voltage isolation, bonding and fluid procedures. Do not open an integrated drive unit without qualified tooling and cleanliness.
Follow the gear manufacturer’s load, speed and cool-down guidance. Initial contact generates heat and requires controlled cycles.
Avoid towing or sustained high load until the specified bedding is complete. Recheck oil and leaks afterwards.
Errors include mixing gear pairs, wrong axle ratio, tightening the pinion nut by feel, setting backlash at one point and ignoring bearing preload.
Others are incorrect oil/additive, unclean assembly, reused collapsible spacer, pattern misinterpretation and mismatched four-wheel-drive tyres.
A failing final drive can seize, lose drive or create driveline instability. Leakage may contaminate brakes where axle seals are involved.
Stop for severe grinding, rapid heat, major play, metal debris or binding. Precision setup requires competent measurement before road use.
Q: Is the final drive the same as the differential?
A: They are often housed together, but reduction and torque division are distinct functions.
Q: Can ring gears and pinions be mixed?
A: No; install the identified matched gear pair.
Q: Why must axle ratios match on four-wheel drive?
A: Different rates create continuous wind-up or coupling slip.
Q: Can pinion play be removed by tightening the nut?
A: Only the specified preload procedure can set it safely.
Q: What does backlash provide?
A: Controlled tooth clearance for oil film and thermal expansion.
Q: Why inspect both drive and coast patterns?
A: Each face reveals different mesh behaviour.
Q: Can any gear oil be used?
A: Use the exact viscosity, performance and differential approval.
Q: Does limited-slip oil need additive?
A: Add only what the differential and selected oil require.
Q: Can tyre mismatch damage a final drive?
A: On coupled drivetrains, circumference differences can impose continuous stress.
Q: Why check the breather after a leak?
A: Pressure can force oil past otherwise sound seals.
Q: Is a coast whine always the ring and pinion?
A: No; gearbox and driveline components can transmit similar noise.
Q: Must new gears be bedded?
A: Follow the specified progressive load and cooling process.
Q: What proves correct setup?
A: Measured depth/preload/backlash, valid patterns and quiet stable operation.