Restore the precise steering response and handling of your classic import with this genuine Moog K9357 Idler Arm. This is a vintage New Old Replacement Stock (NORS) component, manufactured for Moog to original equipment specifications. This idler arm is designed specifically for rear-wheel-drive Mazda 626 models from 1979 through 1982 equipped with the 2.0L L4 engine. As a vintage Moog part, it offers the high-standard metallurgical integrity required to eliminate steering play and vibrations, ensuring your vehicle maintains its correct road-feel and safety. This authentic period-correct part is a vital upgrade for any serious restoration of these early RWD Japanese sedans and coupes.
| Make | Model | Year | Engine | Notes |
|---|---|---|---|---|
| Mazda | 626 | 1979-1982 | 2.0L L4 | RWD Models Only |
1979 1980 1981 1982
Actual Item Photos: Please look over the pictures carefully, as they depict the exact item you will receive. We utilize high-resolution photos of our current physical inventory rather than generic stock images so you can verify the specific condition, markings, and authenticity of this vintage part prior to purchase.
A Note on Fitment Accuracy: We manually research and cross-reference our fitment data using vintage manufacturer catalogs. While we strive for 100% accuracy, these decades-old resources—and the humans reading them—can occasionally contain errors. Additionally, these parts may fit other vehicles and years not explicitly listed in our data. To ensure a seamless restoration, we kindly ask that you perform your own due diligence and verify that this specific part number is correct for your application prior to purchase.
We scour the country to find the best deals on NOS and NORS parts so we can pass the savings on to you. Our prices are often significantly lower than major competitors. All items are vintage stock, manufactured decades ago by aftermarket leaders like Moog but never installed. As such, original packaging may show signs of shelf wear (dust, fading, or tape), and unpainted metal components may have minor surface-level oxidation that does not affect performance.
