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Radiator Inlet Hose for Isuzu NQR & Isuzu NPR, 4BD1, 4BD2, 3.9L, Diesel 1992–1998 OEM


New OEM radiator inlet hose for Isuzu NQR and NPR (1992–1998) with 4BD1 or 4BD2 3.9L diesel engines. Durable hose for proper coolant flow and engine cooling.

$116.53

Vin / Engine Serial Number

Please provide VIN / ESN for identification of correct parts

Maintain optimal engine cooling with this OEM Radiator Inlet Hose for Isuzu NQR and NPR trucks from 1992 to 1998, compatible with 4BD1 and 4BD2 3.9L diesel engines. This high-quality inlet hose ensures proper coolant flow from the radiator to the engine, preventing overheating and maintaining engine efficiency.

Manufactured to OEM specifications, this hose offers heat and pressure resistance, long-lasting durability, and a precise fit for medium-duty trucks. Replacing worn or cracked hoses prevents coolant leaks and helps avoid engine damage.

Key Features:

  • Direct OEM replacement radiator inlet hose

  • Compatible with 4BD1 3.9L and 4BD2 3.9L diesel engines

  • Ensures proper coolant flow and prevents engine overheating

  • Heat- and pressure-resistant material for durability

  • Precision-fit design for easy installation

  • Ideal for preventive maintenance or radiator replacement

Vehicle Compatibility:

  • 1992–1998 Isuzu NQR

  • 1992–1998 Isuzu NPR

Is this radiator inlet hose compatible with all Isuzu NQR and NPR models from 1992–1998?

Yes, this OEM radiator inlet hose is designed for NQR and NPR trucks from 1992 to 1998 with 4BD1 or 4BD2 3.9L diesel engines. Always verify fitment using the VIN or OEM part number.

What is the function of the radiator inlet hose?

It carries coolant from the radiator to the engine, ensuring proper engine cooling and preventing overheating.

Is this a genuine OEM part?

Yes, this is a new OEM-spec radiator inlet hose manufactured to meet original Isuzu specifications for durability and proper fit.

Can this hose prevent engine overheating?

Yes. A proper radiator inlet hose ensures coolant flows correctly, maintaining engine temperature and preventing overheating damage.