Laser marking machine
Setting the Parameters for a Leather Laser Engraver: A Guide to the Ideal Combination of Power and Speed
The company provides a laser cutting machine parameter guide for leather processing, which, through actual testing and case studies, helps users find the optimal combination of parameters, avoiding problems such as scorching or shallow cutting.These techniques are used to adjust for different leather thicknesses and precision requirements, improving work efficiency and product quality.
Seven Points to Remember about Laser Glass Marking
Operators of laser marking machines must take special precautions when working with glass materials to avoid damage to the glass or the equipment.The seven points cover such practical techniques as parameter adjustment, tool usage, and maintenance and cleaning, helping operators improve efficiency, ensure safety, and extend the life of equipment and materials.
Workshop tests: This combination of the five parameters cuts the rate of failure by 80 %
After validation in the production plant, a combination of five parameters was found to reduce the failure rate of the product by 80 %.The system shares specific parameter configuration schemes, operating points, and applicable scenarios, helping production managers and technical staff quickly improve yield rates. It is applicable to injection molding, casting, and other manufacturing scenarios prone to cracking problems.
Laser Parameters for Glass of Different Thicknesses
The table provides parameters for laser cutting glass of different thicknesses, ranging from 3 to 20 mm. It also explains the settings for the key parameters of power, speed, and frequency.A link to a downloadable table of specifications is provided at the end of the article.
Emergency Repair of Microcracks in Glass After Laser Marking
The guide offers a quick solution to the problem of microcracks appearing in glass after laser marking, and covers crack detection, choice of repair materials, repair procedures, and preventive techniques, to help reduce waste and losses.
Glass Laser Marking Guide: Cleaning and Preheating
It explains the key techniques of pre-processing, including surface cleaning and preheating, to help users avoid common mistakes and improve laser marking results.It covers the selection of tools, the details of operation and precautions to be taken, and is suitable for reference by novices and professionals alike.
From Theory to Practice: The Influence of Laser Frequency on Glass Processing
This article explores the impact of laser frequency on glass processing, from the theoretical to the practical, and explains how different parameters affect cutting precision, edge quality and processing efficiency.The institute also helps industry to quickly master the key points of improving processing quality through practical methods such as laser frequency parameter adjustment and optimization of glass cutting techniques.
Practical Guide to Laser Etching on Glass
This book provides a practical tutorial on laser engraving for glass that is designed to prevent cracking. It covers three core skills: materials analysis, parameter optimization, and techniques.The course teaches students about the pre-treatment of the glass, the adjustment of laser power, and cooling methods, and helps them avoid the problem of cracking during engraving, thereby increasing the yield of finished products.
Three Key Points to Setting the Power for Laser Marking Glass
Glass is easily shattered by high temperatures, so it is crucial to set the power level correctly.By focusing on three key points--material property analysis, parameter gradient testing, and real-time monitoring and adjustment--we will teach you how to avoid material damage while achieving the desired marking effect and maintaining operational safety.
