MOT Status
ValidMileage
70,786 miAbove average mileage for this year
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Vehicle Details
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50+ data pointsMOT History
Front Sub-frame is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Nearside Front Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Nearside Front Upper Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Nearside Inner Integral body structure is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Nearside Outer Integral body structure is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Nearside Rear Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Nearside Rear Upper Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Front Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Front Upper Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Inner Integral body structure is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Offside Outer Integral body structure is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Offside Rear Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Rear Upper Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Oil leak, but not excessive (8.4.1 (a) (i))
Rear Sub-frame is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
underside corrosion
Front Sub-frame is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Nearside Front Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Nearside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Nearside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Nearside Rear Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Nearside Rear Upper Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Front Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Rear Lower Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Offside Rear Upper Suspension arm corroded but not seriously weakened (5.3.3 (b) (i))
Oil leak, but not excessive (8.4.1 (a) (i))
Rear Sub-frame is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Front Sub-frame is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
Nearside Front Integral body structure is corroded but structural rigidity is not significantly reduced wing (6.1.1 (c) (i))
Nearside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Nearside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Front Integral body structure is corroded but structural rigidity is not significantly reduced wing (6.1.1 (c) (i))
Offside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Rear Registration plate lamp inoperative in the case of multiple lamps or light sources (4.7.1 (b) (i))
Rear Sub-frame is corroded but structural rigidity is not significantly reduced (6.1.1 (c) (i))
underside corrosion
Nearside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Nearside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
underside corrosion
Power steering component leaking (2.1.5 (a))
Nearside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Nearside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
underside corrosion
Nearside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Nearside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Inner Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
Offside Outer Integral body structure is corroded but structural rigidity is not significantly reduced sill (6.1.1 (c) (i))
underside corrosion
Front Brake disc worn, pitted or scored, but not seriously weakened both disc,s inner face,s (1.1.14 (a) (ii))
under side component,s slightly corroded
Front Brake disc worn, pitted or scored, but not seriously weakened inner face,s (1.1.14 (a) (ii))
vehicle under side component,s slightly corroded
underside corrosion
Nearside Front Tyre not fitted in accordance with side wall instructions (4.1.D.1f)
Nearside front brake binding (3.7.B.1)
Offside Front Tyre not fitted in accordance with side wall instructions (4.1.D.1f)
Nearside Outer Vehicle structure has excessive corrosion, seriously affecting its strength within 30cm of the body mountings (6.1.B.2)
Offside Outer Vehicle structure has excessive corrosion, seriously affecting its strength within 30cm of the body mountings (6.1.B.2)
Nearside Rear Tyre worn close to the legal limit (4.1.E.1)
Offside Rear Tyre worn close to the legal limit (4.1.E.1)
Nearside Outer Rear Vehicle structure has slight corrosion (6.1.B.2)
Nearside Rear Tyre worn close to the legal limit (4.1.E.1)
Offside Outer Rear Vehicle structure has slight corrosion (6.1.B.2)
Offside Rear Tyre worn close to the legal limit (4.1.E.1)
Nearside Outer Rear Body has slight corrosion (6.1.B.2)
Nearside Rear Tyre worn close to the legal limit (4.1.E.1)
Offside Outer Rear Body has slight corrosion (6.1.B.2)
Offside Rear Tyre worn close to the legal limit (4.1.E.1)
Brakes imbalanced requirements only just met. It would appear that the braking system requires adjustment or repair. (3.7.B.5b)
How Reliable is the Mazda MX-5?
Based on 2,502,760 MOT tests across 160,823 vehicles.
Top MOT Failure Points
Don't risk it. Know before you buy.
Not all vehicle check providers are the same. Some don't offer a data guarantee, which means if their information is wrong, you're on your own. Every CarVerify report is backed by a £30,000 finance data guarantee.
AO04 UVY is a 2004 Mazda MX-5 in Red with a 1,597cc petrol engine. This vehicle has been through 23 MOT tests with a personal pass rate of 87%.
Across all 2004 Mazda MX-5 models, the average MOT pass rate is 75.9% with a typical mileage of 59,584 miles. This particular vehicle has performed better than the average for its year.
The most common reason a Mazda MX-5 fails its MOT is seat belt anchorage prescribed area is excessively corroded, accounting for 44,475 recorded failures. If you're considering buying AO04 UVY, it's worth having these areas checked by a mechanic before committing.
The Mazda MX-5 typically stays on UK roads for around 36 years. At 22 years old, this Mazda MX-5 is well into its expected lifespan but still has years ahead.
Frequently Asked Questions
How do I check the history of AO04 UVY?
You can check the full history of AO04 UVY by running a full vehicle check. This shows you finance, stolen, write-off, MOT history, mileage records and more.
What year was AO04 UVY registered?
AO04 UVY is a 2004 Mazda MX-5, first registered on 29 March 2004.
Is AO04 UVY safe to buy?
The MOT history for AO04 UVY shows 23 tests with a 87% pass rate. To check for outstanding finance, stolen markers, write-off history and mileage discrepancies, run a full vehicle check.
Does AO04 UVY have outstanding finance?
Finance checks require a premium vehicle report. This checks against all major UK finance providers to see if there is any outstanding finance on AO04 UVY. If you buy a car with outstanding finance, the finance company can repossess it.
No warranty or guarantee of accuracy is provided for any free data on this page. The data guarantee applies only to information obtained through the purchase of a full check.