As a miniaturized electrochemical component, electrode chips have broad application prospects in fields such as drug screening, virus detection, and biomolecule detection. It has the characteristics of good conductivity and high biocompatibility. However, it has high cost and poor stability in preparation and testing technology, so it puts forward higher requirements on the processing technology. One of its processing technologies is inseparable. Cutting process.
As an advanced processing method, laser cutting machine cutting technology provides a better processing technology for the manufacture of electrode chips. Compared with traditional cutting processes, laser cutting has many advantages. First of all, the laser beam is thinner, faster, has a smaller heat-affected zone, and has no carbonization problem. It can avoid the generation of carbides on the material surface and ensure the purity of the material. Secondly, the cutting surface has no burrs, and laser cutting can achieve the edge of the material after cutting. It is smooth and neat, avoiding the generation of burrs; at the same time, the laser cutting speed is fast, and it can realize simultaneous processing of two tables without opening a mold. It is economical, time-saving and labor-saving, and does not damage the material surface. Compared with traditional processing technology, it is efficient and energy-saving.
As a member of the laser industry, men-luck has been keeping up with the pace of the industry, constantly innovating in the processing accuracy and technology of laser micro-machining equipment, and constantly working hard to provide high-quality laser micro-machining equipment for various precision industries, striving to provide customers with Provide better quality and efficient solutions. In the next few years, we will continue to develop laser micromachining equipment, continuously improve the application level of laser micromachining technology in electrode chip manufacturing, and strive to be able to use all laser processing technologies such as cutting, drilling, welding, marking, and engraving. Our equipment to complete higher quality processing. We also look forward to working with more partners to research high-end application fields of electrode chips and achieve innovation in laser processing processes for more applications.
Post time: Feb-02-2024