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Increased attention has been focused on fuel economy (FE) of passenger vehicle lubricants. For diesel engine oils, FE is significantly lost in service due to soot loading in oils which inhibits adsorption of friction modifier (FM) on rubbing metal surfaces. On the other hand, soot may have a positive aspect because this has a similar molecular structure to graphite which may have a possibility to work well as a solid lubricant, i.e., FM in oils. This suggests that management of soot in diesel engine oils could achieve lower frictional performance, and thus enhance further improvement of fuel economy. The impact of soot properties on friction coefficient by physical and chemical characterization of soot accumulated in diesel engine oils have been firstly discussed in our previous paper. In this paper, the frictional response was investigated in the presence of soot at various test conditions and surface roughness.

A new mechanism DL-pulley has been developed to improve the riding quality by avoiding ON/OFF shock caused by turning on/off of the conventional magnetic clutch (MagCl) for the automotive air conditioner (A/C) compressor. DL-pulley was aimed for Dampening compressor torque fluctuation and Limiting torque transfer when the A/C compressor is seized. For its development, high performance sliding material was the key to realize the sliding mechanism of the torque limiting function. Specifically, the friction coefficient of sliding material must be stable in any environment that the automobile is used. This paper describes the development of new structure DL-pulley with sliding mechanism and new sliding material. In the development process, the relationship between stability of friction coefficient and adhesion has been experimentally clarified.