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Mishimoto Toyota MR2 Spyder Performance Aluminum Radiator 2

The Mishimoto performance aluminum radiator for the 2000-2005 Toyota MR2 is the ideal upgrade to the stock Toyota radiator.Designed and specifically engineered to maximize cooling efficiency by up to 30-percent, boost engine functions and protect your car from overheating whether your Toyota MR2 is a daily driver or a track car.The Mishimoto Toyota MR2 radiator features a lightweight three row core, 100-percent brazed aluminum, and polished end tanks.Every Mishimoto Performance Radiator is a direct OEM fit, making installation effortless, no cutting or modification is required.
Codice articolo: MMRAD-SPY-00
360,10 € 360,10 € (Imposte incluse)

  • Marchio
  • Core Thickness (mm)
  • DPI
  • Drain Plug Thread Size
  • Overall Length (cm)
  • Overall Width (cm)
  • Rows
  • Core Height (cm)
  • Core Length (cm)
  • Engine Codes
  • Fluid Capacity (gal)
  • Inlet (mm)
  • Outlet (mm)
  • Overall Height (cm)
  • Imballaggio
Termini e Condizioni
Garanzia di rimborso di 30 giorni


Specifiche del prodotto
Marchio: Mishimoto
Core Thickness (mm): 52.07
DPI: 2358
Drain Plug Thread Size: M10 x 1.25
Overall Length (cm): 37.11
Overall Width (cm): 6.48
Rows: 3
Core Height (cm): 31.78
Core Length (cm): 65
Engine Codes: 1ZZFE
Fluid Capacity (gal): 3.1
Inlet (mm): 35.05
Outlet (mm): 35.05
Overall Height (cm): 77.95

Mishimoto


The World Leader in Performance Cooling

Founded in 2005 by automotive enthusiasts, for automotive enthusiasts, Mishimoto has spent two decades establishing itself as the global authority in performance cooling system upgrades. Headquartered in Garnet Valley, Pennsylvania, in a 68,000 sq. ft. facility, and supported by additional offices in Nevada, London, Shanghai, and Sydney, Mishimoto operates on a genuinely international scale, delivering cooling solutions across sport compact, muscle, truck, Jeep, powersports, and classic car markets.

Engineered with Precision, Tested to Prove It

Every Mishimoto product is developed entirely in-house using an advanced R&D process that includes 3D modelling, rapid prototyping, FARO laser scanning, ROMER Arm measurement, computational fluid dynamics analysis, and Dynapack and Dynojet dynamometer testing. This rigorous engineering approach ensures that each product delivers measurable improvements in thermal performance and fits cleanly with no modifications required, a direct-fit upgrade that makes an immediate and verifiable difference.