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Low-viscosity automatic transmission fluids (ATF) have advantages in terms of lower churning losses and lower drag resistance in the automatic transmission (AT) and higher transmission efficiency. While a low viscosity is effective to the improvement of fuel economy, there is a risk of degraded fatigue prevention performances or anti-wear properties of the ATF, which can have an adverse effect on the reliability of the AT. Consequently, the use of current low-viscosity ATFs were limited to AT units that were specially developed to use them. The aim of our study was to resolve these problems and improve the general versatility of low-viscosity ATFs. We developed a low-viscosity ATF having high reliability by designing its viscosity based on the field test data involving conventional commercial fluids of normal viscosity design (7.4mm2/s@100°C), and by optimizing the blend of base stocks and viscosity index improvers (VI improvers).

In order to meet the increasingly tough emission regulations on diesel vehicles, automobile manufacturers in Japan are focusing on the development of diesel particulate filters (DPFs), nitrogen-oxide-reducing catalysts so-called deNOx catalysts, and other technology for reducing exhaust gases. In order to reduce catalyst poisoning, diesel fuel with a sulfur content of 50 ppm or lower-one-tenth the previous level-was put on the market in Japan in April 2003. At the same time, guidelines took effect for the new DH-2 and DL-1 standards for diesel engine oils compatible with after-treatment devices; the full regulations are scheduled to come into force in 2005. The newly developed low-ash diesel engine oil described here contains a reduced amount of metallic detergents, thus lowering the sulfated ash content to about two-thirds that of conventional high-ash oil.

In this study, the oxidation stability, soot dispersancy, antiwear performance, and friction-reducing capability of friction modifiers (FMs) were evaluated, and an SAE 5W-30 fully synthetic oil with MoDTC type FMs was developed for heavy-duty diesel engines. In several engine tests, it was confirmed that the developed oil can double the oil drain interval in comparison with API CD SAE 30, even when EGR is applied, and improves the fuel efficiency.