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Awareness of environmental protection with respect to the particulate number (PN) in the exhaust emissions of gasoline direct injection (GDI) engine vehicles has increased. In order to decrease the emission of particulate matter (PM), suppressing emissions by improving engine combustion, and/or filtering PM with a gasoline particulate filter (GPF) is effective. This paper describes the improvement of the coated GPF to reduce pressure drop while securing three-way performance and PN filtration efficiency. It was necessary to load a certain amount of washcoat on the GPF to add the three-way function, but this led to an increase in pressure drop that affected engine power. The pressure drop was influenced by the gas permeation properties of the filter wall.

The need to improve fuel consumption by saving the weights of automobile parts is growing from the viewpoint of global warming mitigation. In the case of a throttle body for controlling the air flow volume into an engine, it is important to achieve a high dimensional accuracy of the valve-bore gap in the state of closed valve. In fact, most throttle bodies are made of precision-machined metal. Therefore, resin throttle bodies are drawing attention as a lightweight alternate. However, in comparison with metal throttle bodies, resin throttle bodies have two potential disadvantages that should be solved prior to productization. The first one is greater air leakage in the state of closed valve, and the second one is smaller heat conduction for unfreezing the valve in a frigid climate. We have developed an electronic resin throttle body that has overcome the above-mentioned disadvantages.

Automotive Shredder Residue (ASR), the waste generated by shredding operations in the recycling of metals from scrapped automobiles, is currently disposed of in landfill sites. In Japan, disposal regulations such as leachable lead control have been changed, and moreover landfill sites are getting scarce. Therefore how to control, treat and decrease ASR is a serious matter. This study presents methods for the recycling of automotive shredder residue into automobile components by dry mechanical processing steps. These steps sort the material into several categories accrding to its properties. The material fineness is improved by further, thorough, sorting steps.

The use of metal head gaskets is rapidly increasing to meet recent requirements for modern engines, such as the use of asbestos free gasket materials, operating the engine at higher output, and other engine design criteria. Traditional evaluation of metal head gaskets has consisted of many hours of actual engine durability tests. Accordingly, this new static test method has been developed for the evaluation of metal gaskets. This method employs a gap sensor and strain gauge which measures the gasket sealing embossment deflection using simulated engine load. The evaluation of metal head gaskets can be divided into two important categories, namely sealability and crack resistance. Sealability depends on the gasket embossment yield, the rubber coating fatigue, the effect of cylinder head and block stiffness, the variation in fastening load due to thermal expansion, and the variation in cylinder sleeve load due to combustion pressure.