With the upgrade of automobile consumption, more and more attention has been paid to the health attributes of the car cockpit. However, due to the lack of a unified evaluation standard in the industry, the concept of the car health cockpit is blurred, causing confusion in the industry and consumers. In order to standardize and unify the evaluation system of car health cockpit, this paper conducts research on the evaluation index system of car health cockpit through the influence of car cockpit on human health, combined with the thorough detection of harmful substances, establishes an index framework system and the health evaluation of car interior parts. It is of great significance to promote the development and application of automotive environmental protection materials, configurations and processes, and to promote the green development of the industry.
In order to study the corrosion phenomenon of automotive metals in the actual environment and different test methods, Zinc materials is selected as the research object. The corrosion phenomenon of Zinc plate in atmospheric environment, NSS neutral salt spray test and CCT cycle corrosion test are analyzed through the dimensions of corrosion morphology, weight loss and electrochemical corrosion analysis, and the corrosion fitting matrix of zinc material is obtained. The material corrosion characteristics under different corrosion atmosphere conditions are quantitatively analyzed, which provides a reference for exploring automobile intelligent evaluation methods, shortening corrosion test cycle and accelerating corrosion verification progress.
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