0 Products
No products found
Use fewer filters or
A timing-belt kit groups the matched parts needed to renew an engine's synchronous camshaft drive. A typical kit includes a toothed belt, automatic or eccentric tensioner, idler rollers and fitting hardware. Some kits also contain the timing-driven water pump, seals, guide flanges or single-use crank and cam fasteners. Renewing the complete wear system reduces the risk that an old bearing, spring or pump damages a new belt.
Timing belts use moulded tooth profiles and high-strength tensile cords to transmit crankshaft rotation without slip. Belt length, width, tooth pitch, compound and running direction are engine-specific. Kits that appear similar can use different roller offsets, tensioner indicators, water-pump impellers, gasket types and revised routing. Mixing components from separate kit generations can misalign the belt or set incorrect tension.
Select using registration or VIN, exact engine code, production date and current manufacturer service data. Confirm belt tooth count and width, tensioner and idler geometry, water-pump inclusion, engine mount hardware and any superseded kit package. Check the replacement interval by both time and distance, severe-use guidance and whether the engine uses a conventional dry belt or a belt running in engine oil.
Warning signs include cracking, tooth-root damage, frayed edges, belt dust, oil or coolant contamination, rough rollers, unstable tension marks, tracking faults or abnormal timing noise. However, many belts fail without useful visible warning and remain hidden by covers. Oil leaks, coolant-pump leakage, misaligned sprockets and incorrect installation must be repaired, not concealed with a new belt.
Replacement is safety-critical engine work. Use the specified locking and counter-hold tools, support the engine where mounts are removed and never rely on paint marks. Keep belt and pulleys clean, route in sequence, set tension at the defined crank position and temperature, and torque all fasteners correctly. Rotate the engine slowly by hand through the required cycles, refit locks and recheck timing and tension before starting. Timing-belt kits matching the selected engine and service strategy are listed below.
Your Current Vehicle
Or
Only manufacturers with matching products in the current catalogue are shown.
Choose a vehicle make with verified fitment for this part type.
Popular model families are ranked by the number of matching catalogue products.
Explore related part types from the same catalogue group.
158 products
53 products
41 products
29 products
24 products
12 products
11 products
7 products
7 products
4 products
3 products
1 products
The crankshaft and camshaft must remain at a fixed angular relationship. Belt teeth engage matching sprockets while tensile cords carry load. Tensioners and idlers establish wrap, alignment and dynamic control. A pump driven by the belt becomes part of the same reliability system.
Because rollers and springs complete the same revolutions and heat cycles as the belt, a belt-only repair can leave the oldest failure point in service.
| Kit type | Typical contents | When it applies |
|---|---|---|
| Basic belt kit | Belt, tensioner and idler(s). | Water pump is external or serviced separately. |
| Belt and water-pump kit | Basic kit plus pump, seal and sometimes fasteners. | Pump shares timing drive or access. |
| Multi-belt timing kit | Primary and secondary belts with matched rollers. | Engines with separate cam/balance/fuel-pump drives. |
| Wet-belt service kit | Oil-compatible belt plus specified tensioning/sealing parts. | Belt operates inside engine oil. |
| Revised conversion kit | Updated belt, tensioner, guides, bolts and routing parts. | Manufacturer-approved supersession fitted as a set. |
| Full front-engine kit | Timing parts, auxiliary belt, seals and mount hardware. | Combines overlapping service access where specified. |
Glass fibre or other high-strength cords limit length change under load. Kinking, folding sharply or levering the belt damages cords invisibly. A belt should be stored in its natural coil.
Moulded elastomer teeth engage sprockets while a fabric facing controls wear and friction. Tooth-root cracks, exposed fabric and missing sections are serious defects.
The smooth back contacts tensioners and idlers in many layouts. It withstands bending in both directions and heat. Glazing, cuts or edge abrasion indicate abnormal conditions.
Arrows, part numbers and alignment lines support installation. Marking alignment is usually an initial setup aid and may not return after normal hand rotation because sprocket tooth counts differ.
Trapezoidal, curvilinear and modified curvilinear tooth shapes use different load distribution. Pitch and root geometry must match sprockets exactly. A belt with the same tooth count but wrong profile can ride high, wear rapidly and jump.
Sprocket teeth should be clean and undamaged, with keyways, locating pins and flanges intact. Corrosion or embedded debris changes engagement. Do not sand or dress precision tooth profiles casually.
| Check | Possible variation | Why it matters |
|---|---|---|
| Engine code | Belt path, tooth profile and driven components. | Model and capacity alone are insufficient. |
| Build date | Kit revision, tensioner and water pump. | Mid-production changes may look similar. |
| Belt dimensions | Tooth count, pitch, width and direction. | Controls timing and sprocket engagement. |
| Tensioner | Automatic, eccentric, spring or hydraulic. | Setup direction and force differ. |
| Idler offset | Diameter, width and mounting shoulder. | Defines belt plane and wrap. |
| Water pump | Impeller, tooth count, flange and gasket. | Flow, clearance and tension load matter. |
| Fasteners | Reusable or torque-to-yield bolts/studs. | Clamp and alignment depend on correct hardware. |
| System generation | Original versus approved revised package. | Do not mix incompatible revisions. |
Follow both time and distance limits, whichever comes first. Rubber and interfaces age even on low-mileage vehicles, while high mileage cycles bearings and belt teeth. Interval wording can differ by engine, production date, climate and severe use.
Short trips do not protect a belt: repeated temperature and starting cycles still occur. Oil or coolant leaks, unknown history and long storage can justify earlier inspection or renewal within manufacturer guidance.
Do not infer a universal interval from a similar engine. Check current service bulletins because revisions can change parts and schedule.
A dry timing belt must remain free of oil, coolant, fuel, grease and belt dressing. Contamination swells or softens compounds and reduces tooth adhesion. Repair cam, crank, cover and pump leaks before fitting the new kit.
A wet belt is designed for immersion or oil mist but only with the exact approved engine oil. Wrong chemistry, fuel dilution, degraded oil and extended intervals can attack the belt. Debris can block the oil pickup and starve the engine.
Never convert assumptions between dry and wet systems. Wet-belt inspection can require measuring width, checking surface condition and inspecting sump/pickup by engine-specific procedure.
Automatic tensioners use springs and damping to respond during operation. Eccentric rollers are set at a defined engine position and temperature. Both require correct rotation direction and fastener torque so the pointer remains aligned.
Idler bearings run at high speed. Roughness, grease leakage, play or blue heat marks require replacement. New rollers must seat against clean shoulders; trapped debris tilts the belt.
A visually matching pulley with different offset moves the belt sideways. Compare technical dimensions and backplate locating tabs.
Where the timing belt drives the water pump, pump seizure, leakage or bearing play can destroy the belt. Replacement during belt service avoids repeating major access and renews a component with shared interval exposure.
Use the pump and strategy specified for the engine. Impeller material alone does not define quality; blade geometry, bearing, seal and housing dimensions affect flow. Some pumps use gaskets, some O-rings and some controlled sealant.
Do not spin a dry mechanical seal unnecessarily or apply sealant to a gasketed joint unless specified. Refill with approved coolant and bleed correctly after installation.
| Finding | Possible cause | Response |
|---|---|---|
| Frayed edge | Misalignment, flange damage or wrong pulley offset. | Correct belt plane before renewal. |
| Tooth-root cracking | Age, tension or thermal/chemical degradation. | Renew kit and inspect sprockets. |
| Missing teeth | Severe fatigue, seizure or contamination. | Do not run; check engine timing/damage. |
| Shiny/glazed back | Heat, slip or rough/seized roller. | Inspect every driven bearing. |
| Oil/coolant on belt | Seal, pump or cover leak. | Repair source and renew contaminated belt. |
| Pointer out of range | Wrong belt, setup, temperature or tensioner. | Repeat exact tensioning procedure. |
| Belt dust in cover | Edge contact, tooth wear or misalignment. | Find contact and sprocket condition. |
| Timing correlation code | Jumped belt, wrong installation or sensor fault. | Verify mechanically before cranking further. |
On an interference engine, pistons and open valves occupy the same space at different times. Belt tooth loss or incorrect timing can bend valves, damage pistons and break cam followers. Do not repeatedly crank a suspected failed drive.
After a timing loss, assess compression, leakage and internal contact before fitting a kit. A new belt cannot repair collision damage.
Timing pins are often for positioning, not reacting bolt torque. Use dedicated counter-hold tools. Keyless sprockets can move as soon as clamp force is released.
Record routing and tensioner pointer position. Release tension by its specified direction and sequence. Do not rotate crank or cams independently unless the procedure moves pistons to a safe position.
Inspect old belt teeth, edges and contamination before discarding; they reveal underlying faults. Rotate pump and rollers by hand, check sprocket flanges and measure mounting shoulders. Inspect oil seals without scratching shafts.
Clean the timing area with approved lint-free methods. Keep solvent from seals and do not blow debris into oil or coolant passages.
Replace torque-to-yield bolts, prevailing-torque nuts, studs and coated friction washers where specified. Thread lubricant and surface cleanliness change clamp load. Do not reuse hardware merely because it looks sound.
Fit crank/cam seals at correct depth and lip condition. PTFE seals can require dry installation and a waiting period. Restore every timing cover and gasket; missing covers admit stones and auxiliary-belt debris.
Where a pump was replaced, refill with the exact coolant approval and mixture. Use vacuum fill or bleed points as specified. Air pockets can cause local overheating and false level changes.
Before starting, turn the engine by hand, inspect all tools are removed and verify covers and mounts. Prime oil/coolant systems where required. Start from a safe position and stop immediately for abnormal noise, tracking, leakage or warning.
Warm under controlled observation, verify stable temperature and heater output, then cool fully and recheck level. Inspect belt-related leaks through available windows without removing running-engine guards.
The timing belt is not usually inspected directly during an MOT because it is enclosed, but failure can stop the engine and cause severe internal damage. Misfire, warning lamps and emissions from incorrect timing can affect inspection outcomes.
Keep documentary evidence of the date, mileage, engine code, kit and water-pump/coolant work. Do not drive with missing covers, abnormal timing noise, leakage into the belt housing or a known overdue interval where failure risk is unacceptable.
Q: What does a timing-belt kit include?
A: Usually belt, tensioner and idlers, with some kits adding pump and hardware.
Q: Why replace rollers with the belt?
A: Their bearings and tension mechanisms share the same service exposure.
Q: Should the water pump be replaced?
A: Follow the engine's kit strategy, especially when the timing belt drives it.
Q: Is belt interval based on mileage only?
A: No. Time and distance limits both apply.
Q: Can two belts with the same tooth count differ?
A: Yes, in width, tooth profile, compound and direction.
Q: Can a contaminated belt be cleaned?
A: No. Repair the leak and renew the affected belt.
Q: Are wet timing belts ordinary belts in oil?
A: No. They use specific materials and require approved engine oil.
Q: Are paint marks enough for installation?
A: No. Use the specified locking and timing references.
Q: Must timing marks realign after hand rotation?
A: Mechanical references must align; printed belt marks may not return quickly.
Q: Can the tensioner be turned either direction?
A: No. Use the exact stated direction and pointer procedure.
Q: What happens if the belt jumps?
A: Valve timing changes and an interference engine can suffer internal collision.
Q: Should new fasteners be used?
A: Yes wherever the procedure specifies single-use bolts, nuts or washers.
Q: Can a timing-belt fault affect the MOT?
A: Indirectly through misfire, warnings, emissions or unsafe engine operation.