In the rolling process of Magnesium Alloy, different mixtures of organic and inorganic compounds are used to lower the friction. Such coolants and lubricants may age or deteriorate during use. This paper describes a method for evaluating oxidation stability performance of lubricants by TG–DSC analyzer. The influence of oxidation on the volatility of lubricants and the tendency of the formation has been studied by comparing the TG curves and DSC curve of lubricants obtained under 298K to 798K atmosphere. The results show that this method is potentially useful for lubricants selection and quality control and for studying influence of base lubricants composition on oxidation performance.
The formulation design and fundamental experiments of O/W type emulsions as lubricant and coolant in the hot rolling process of magnesium alloy were conducted in this work. The main components of emulsion were determined by the comparision of some candidates of base oil, polar oil additive and emulsifier in microstructure and properties, respectively. It is found that the conservation stability of emulsions is mainly dominated by the emulsifier concentration and type. The results showed that the suitable stability and microstructure was obtained by using compound emulsifier of nonionic and anionic surfactants. The feasible contents of both emulsifier and polar agents are about 10 percent, respectively.
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