Electrochemical discharge-enabled micro-grinding process for micro-components of silicon-based materials

Assignee

• CHANGSHA UNIVERSITY OF SCIENCE AND TECHNOLOGY · CN

Inventors

• Cong Mao · Hunan, CN
• Weidong Tang · Nanhu, CN
• Yuanqiang Luo · Hunan, CN
• Yinghui Ren · Hunan, CN
• Wei Li · Liyang City, CN
• Mingjun Zhang · Hunan, CN
• Kun Tang · Bellevue, US
• Gang Wu · Zhejiang, CN
• Yongle Hu · Hunan, CN
• Feng Shi · Beijing, CN
• Ziyang Chen · Hunan, CN
• Zhuo Wen · Hunan, CN

Key dates

Classification

• Technology area (CPC B)Performing Operations; Transporting
• CPC primaryB23H2300/10
• WIPO fieldMachine tools
• WIPO sectorMechanical engineering

Abstract

This paper describes an invention involving an electrochemical discharge-enabled micro-grinding process for micro-components of silicon-based materials. The specific machining method is described below. A micro-grinding tool and an auxiliary electrode are respectively connected to the negative and positive electrodes of a pulsed DC power supply. When the current flows through the loop, an electrochemical hydrogen evolution reaction (HER) occurs at the micro-grinding tool in the grinding fluid, which generate multiple hydrogen bubbles. The bubbles coalesce into an insulating gas film and separate the micro-grinding tool from the grinding fluid; when the critical voltage is reached, the gas film is broken down and an electrochemical discharge occurs accompanied by discharge spark; under the action of the discharge spark, the surface material of the workpiece in the discharge-affected region is directly ablated to generate a heat-affected layer (HAL), namely, physical modification.