Abstract
Micro eccentric shaft has important application in many high-tech fields because of its small specific gravity, material, and energy saving. The machined surface texture has an indispensable influence on the surface integrity and the final functional capability. However, due to the micro scale and weak rigidity, it is difficult to characterize the surface texture and evaluate the functionality by traditional quantitative parameters. In order to comprehensively realize the surface texture characterization and functional analysis, a mathematical model is established to simulate the surface texture machined with different cutting tools. Then the surface microscopic profile and functional performance of the surface texture are analyzed by amplitude distribution function (ADF) and bearing area curve (BAC), and the surface texture is also evaluated by fractal dimension, which can avoid the negative effects of scale and resolution. Furthermore, power spectrum density (PSD) is utilized to analyze the relationship between the process dynamic state and geometrical specification of the surface texture. The validity of experimental results shown that the microscopic height distribution of surface machined by flat end milling cutter tends to be more random and there are more microscopic geometric features than that of the ball end milling cutter. The machined surface obtained by the flat end milling cutter has better load bearing, wear resistance, and liquid retention capability.
Highlights
Micro eccentric shaft can realize the transformation of rotary motion and linear motion, which is widely used in micro machinery
The amplitude distribution function and bearing area curve are used to analyze the functional performance of the machined surface and the fractal dimension is used to analyze the surface texture, which can avoid the influence of scale and resolution compared with traditional quantitative statistical parameters
Benefited from the machining precision control model, the machining deformation reduces to 1 μm, which means that the machining precision increased 86%. 3.2 Surface texture characterization and functional performance analysis
Summary
Micro eccentric shaft can realize the transformation of rotary motion and linear motion, which is widely used in micro machinery. Amplitude distribution function is the commonly used to describe the probability distribution of surface micro height and characterize the geometrical features [12, 13], and bearing area curve as a statistical function has a superior performance in assessing the wear resistance, load bearing, and lubricant or oil retention capacity of the machined surface [14, 15]. The amplitude distribution function and bearing area curve are used to analyze the functional performance of the machined surface and the fractal dimension is used to analyze the surface texture, which can avoid the influence of scale and resolution compared with traditional quantitative statistical parameters. The characterization and functional performance of the surface texture obtained by different cutting tools are realized
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