Laser marking machine
A Guide to Laser Marking Parameters for PCBs
The project will explore how to adjust parameters such as laser power, frequency, and speed to ensure the accuracy of the laser marking while increasing the life of the equipment.The book provides practical techniques and is suitable for reference by electronic engineers and PCB production personnel.
From Tuning to Maintenance: A Rubber Laser Marking Case Study
The book centers on optimizing the entire rubber laser marking process, explaining in detail how to improve marking efficiency and product quality, from setting up equipment and matching parameters to routine maintenance.The book shares actual case studies to help readers resolve common problems such as unstable laser power and blurry marking, helping users reduce maintenance costs and prolong equipment life.
A Detailed Explanation of the Differences in Laser Marking Parameters for EPDM and Silicone Rubber
In the article, we compare and contrast the parameters of EPDM rubber and silicone rubber, and explain how to adjust the power, speed, and frequency to improve the quality of the marking and increase production efficiency.
A Guide to Selecting Odor Control Equipment for Laser Engraving Machines (2024 Edition)
The report provides a purchasing guide for laser marking equipment manufacturers for 2024, covering key parameters, brand comparisons, and application scenarios, to help users quickly match up with a high-efficiency deodorizing solution.This article examines the key techniques for dealing with laser processing odors, in terms of processing efficiency and cost control, to help you select the most suitable equipment.
Common Problems with Rubber Stamps: Blurred or yellowed ink How to solve them
The material of rubber is prone to problems such as blurred or yellowed lettering, which affects the appearance of the product and the effectiveness of the labeling.Starting from the actual situation, it analyzes the root of the problem and provides targeted solutions, covering equipment adjustment, material selection, and daily maintenance techniques, to help users efficiently resolve common problems in rubber marking.
How to Adjust the Laser Parameters to Reduce the Smell of Rubber
It provides a detailed explanation of how to effectively control the odor problem by adjusting the laser power, scanning speed, and frequency.These manuals include detailed operating procedures and practical techniques to help operators improve their skills and ensure the safety of the production environment.
3 Tips to Prevent Deformation in Silicone Laser Marking
The three key techniques are laser parameter adjustment, fixture design optimization, and temperature control. These help solve the problem of silicon rubber softening and deforming due to high temperatures, and improve marking precision and product quality.
Laser Marking: How to Get Rid of the Smell
If you are experiencing problems with unpleasant odors from laser marking in the workshop, here are five practical ways to solve the problem, covering everything from ventilation to materials selection and equipment adjustment. These tips will help you quickly improve the work environment and reduce the annoyance of the odors.
Laser Marking Machines for Rubber: A Complete Guide to Parameter Settings
This guide provides all the information needed to configure a laser marking machine to mark rubber, covering core parameters such as power, speed, and frequency. It also features a chart of common materials to help users quickly match the best parameter settings for different types of rubber, increasing marking speed and clarity.
Comparison of Laser Etching and Traditional Etching
The laser engraving process differs from traditional etching in terms of cost, efficiency, and the range of materials it can be used on.By comparing the costs of equipment, materials, and production efficiency, it helps companies select the best production method for their needs.
Three Minutes to Understand the Process of Removing Multilayer Coatings
Want to quickly master the core techniques for removing multiple layers of plating? In just three minutes we'll take you through the practical steps, common techniques, and precautions to be aware of, including chemical dissolution and mechanical grinding. This is suitable for those in the industrial maintenance and precision machining fields who want to get to grips with the subject quickly.
Laser Marking of Coated Materials: How to Avoid Burning
The coating materials used in the process tend to burn easily when subjected to the heat of the laser beam, which can adversely affect the quality of the marking.From three angles--parameter settings, material characteristics, and process optimization--he shared how to avoid scorching by adjusting key parameters such as laser power, frequency, and speed, and by combining these with techniques for processing the surface of the material.
Laser processing: Avoiding damage to the substrate
If you want to avoid damaging the substrate during laser processing, you have to pay attention to three things: parameter setting, material pre-treatment, and energy control.Sharing practical techniques such as laser power regulation, focus positioning, and the application of protective coatings, this course will help you improve processing accuracy and reduce material waste. It is suitable for use with a variety of materials, including metal and plastics.
Laser Removal of Nickel / Zinc / Chromium Plating
By comparing the laser removal of nickel, zinc, and chromium, three common metal coatings, the authors analyze the differences in laser parameters, removal efficiency, and surface damage, providing a reference for selecting coating removal technologies for use in industry.The company's data on key parameters such as laser power and scanning speed help its clients optimize their production processes.
Selecting the Proper Laser Parameters for Layered Marking
The key is to match the laser parameters accurately.The book covers three key areas: material characteristics, power adjustment, and speed control. It shows readers how to adjust laser parameters according to the material being used, such as metal or plastic, to achieve both efficiency and precision, while also solving common problems such as uneven depth and blurred details.
Solutions to Common Problems in the Removal of Coatings
The book covers a wide range of practical techniques for dealing with the problems encountered in the process of removing plating material, including chemical, mechanical, and electrolytic methods.The company provides detailed operating instructions to help users avoid mistakes and efficiently remove plating layers from different materials.
Five Practical Tips for Laser Marking Metal Plated Surfaces
When laser marking machines are used to mark metal coatings, how can the base material be protected while still producing a clear mark? Here are five practical tips, covering parameter adjustment, pre-processing of the coating, and layer marking, which can help you solve problems of blurred or peeling marks, and improve processing efficiency and product quality.
The Relationship Between Anodic Oxide Film Thickness and Laser Marking Color
Experiments were used to verify the effect of different thicknesses of anodic oxidation film on the color of laser marking, revealing the corresponding rules for the thickness of anodic aluminum oxide film and the color of markings.The focus of the article is on how to control the thickness of the oxidation layer to achieve specific colors in products such as electronic casings and metal nameplates, providing practical technical references for the surface treatment industry.
The Impact of Laser Power and Scanning Speed on Marking Quality
Through actual testing data, it analyzes how laser power and scan speed directly affect the results of laser marking, covering key indicators such as depth, clarity and color changes. This helps users quickly master parameter optimization techniques, improving the efficiency of marking and the quality of the finished product.
Solving the Problem of Gray Laser Engraving
The laser marking color turning gray is a common problem and could be caused by material characteristics, parameter settings or the state of the equipment.With hands-on guidance, you will learn how to optimize the material pre-treatment process by adjusting the parameters of power, speed and frequency. You will also learn how to clean and maintain the equipment, so that the laser marking effect will be restored to its original clarity and brilliance, and the problem of the color turning gray will be resolved.
