Electrochemical machining process for micropit arrays using a rolling device with a linear cathode and a soft mask

Abstract: This paper presents a novel electrochemical machining process for machining microstructure arrays on curved surfaces of parts. A set of electrolytic systems with the rolling device was constructed to machine micro-pit arrays on various metal part surfaces. Numerical simulations were conducted to investigate the electric field distribution characteristics and their spatial evolution over time, as well as the geometric profile evolution of the forming microstructures. Experimental tests were carried out on the s… Show more

“…The roll-print mask electrochemical machining using the linear cathode is a technical method for electrochemical dissolution process using a rolling device with a linear cathode and an insulation mask. This has the advantages of high processing efficiency, no tool cathode loss, large-scale and high-efficiency continuous processing for the surface micro-structures [ 21 , 22 ]. The aim is to obtain the optimal process parameters for high precision, high efficiency and good localization of surface micro-structure arrays in the roll-print mask electrochemical machining using the linear cathode of GH4169 alloy in this paper.…”

Anodic Dissolution Characteristics of GH4169 Alloy in NaNO3 Solutions by Roll-Print Mask Electrochemical Machining Using the Linear Cathode

“…The roll-print mask electrochemical machining using the linear cathode is a technical method for electrochemical dissolution process using a rolling device with a linear cathode and an insulation mask. This has the advantages of high processing efficiency, no tool cathode loss, large-scale and high-efficiency continuous processing for the surface micro-structures [ 21 , 22 ]. The aim is to obtain the optimal process parameters for high precision, high efficiency and good localization of surface micro-structure arrays in the roll-print mask electrochemical machining using the linear cathode of GH4169 alloy in this paper.…”

Anodic Dissolution Characteristics of GH4169 Alloy in NaNO3 Solutions by Roll-Print Mask Electrochemical Machining Using the Linear Cathode

Enhanced manufacture technology based on emission reduction and carbon reduction in cutting and grinding

Developments, challenges and future trends in advanced sustainable machining technologies for preparing array micro-holes