Laser security vs. 2D barcodes

In this article, we compare the costs, the advantages and disadvantages, and the appropriate applications of laser security printing and traditional 2D barcode printing.From the perspectives of production investment, anti-counterfeiting effectiveness, and long-term maintenance, the article helps companies choose the appropriate solution based on budget and needs. Keywords include laser anti-counterfeiting costs, QR code printing, and anti-counterfeiting technology.

A Solution for Combating Counterfeits: From Production to Sales

The book offers a detailed explanation of the QR code anti-counterfeiting system, covering all aspects of the process from production to sales, including label design, data encryption, and consumer verification. The book will help businesses establish an efficient anti-counterfeiting system, increase the credibility of their products, and boost their competitiveness.

How to Select the Right Laser-Generated 2D Bar Code Reader

How to select the right laser barcode scanner? Starting from practical needs, this article analyzes key parameters, suitable scenarios, and brand comparisons, to help you match your industrial barcode scanning needs accurately, and improve scanning efficiency and stability.

Five Key Advantages of Laser-Based QR Codes for Product Authentication

Laser engraving of invisible barcodes for anti-counterfeiting purposes uses high-precision laser engraving and invisible design to provide products with a high level of security against counterfeiting.The system has five core advantages: It is hard to counterfeit, it has a controllable cost, and it is easy for consumers to verify. It helps businesses solve the problem of counterfeiting and boosts customer confidence in a brand.

Optimizing Braille Laser Engraving Parameters

The team also developed a set of parameters for laser printing of braille, which can be used with a reference chart to quickly adjust the laser power.It includes information on the relationship between different materials, the height of the Braille dots and the power setting, helping the operator to set the parameters precisely, thereby improving the efficiency and quality of the marking process.This is a reference book for engineers who design and produce Braille labels.

Global Braille Signs: A Comparison of Standards

It will provide an in-depth analysis of the 2024 update to the International Standard for Braille Signs and Labels, and compare the differences between the standards used in Europe, America, and Asia. It will also provide practical advice on how to go from understanding the regulations to putting them into practice.This includes guidelines for public space signage, materials selection, and installation, to enable designers, architects, and accessibility service organizations to quickly grasp the latest compliance standards.

A Guide to Braille Dot Height Testing

This book provides a guide to the selection and use of braille dot height measuring instruments, covering comparisons of different types of equipment, points to consider when making a purchase, and operating techniques. It helps users quickly master key points, and improve the efficiency of quality checks on printed braille.

Five common mistakes that can lead to failure in a Braille certification inspection--have you fallen into any of these traps?

Certification of Braille is a necessary step for factories that produce products with identification labels, but many companies fail repeatedly because of oversights in the details.A summary of the five most common mistakes made in the certification process includes layout errors in the labeling, improper choice of materials, and a lack of quality control. This helps companies quickly identify and eliminate potential problems and increase their chances of getting certified.

Laser Marking Machines: Maintaining the Sense of Touch

Sharing the core technology for maintenance of laser engraving machines, the key to solving the problem of Braille embossing weakening over time.Through daily cleaning, recalibration, and environmental control, the company helps users extend the life of their devices, ensuring that the Braille markings remain clear and stable, and improving the user experience.

How to resolve the height difference between metal and plastic dots?

The raised dots on metal and plastic surfaces are made in different ways, and this often leads to problems with differences in height.By analyzing the characteristics of materials, processing techniques, and tactile optimization schemes, we can provide practical solutions that meet the standards for the height of Braille dots, helping to resolve the problem of tactile recognition of Braille on metal and plastic. This will ensure the effectiveness of the barrier-free facilities.

Blind to the Law: The Process of Testing Braille Signs for Compliance

This book provides a comprehensive guide to the process of testing for ISO certification, including standards, testing procedures, and common problems.They help public places and service institutions meet the technical specifications of Braille signs, such as the material and the spacing of the dots, so that they can pass certification reviews and create a truly barrier-free environment.

Braille Labeler Parameters: How to Accurately Control the Height of the Dots

The height of the dots on a Braille label directly affects the quality of the tactile experience.In three areas-pressure, material, and temperature-the company provides detailed information on how to adjust the machine's parameters to solve problems such as unevenness and wear of Braille dots, ensuring that the printed Braille meets international standards.

Regulations for the Coloring and Labeling of Medical Instruments

The guide explains the core standards for medical device color coding, including design principles, material selection, and quality control points, to help manufacturers optimize the color-coding process and ensure that it meets industry standards and guarantees safe usage.The content focuses on practical scenarios, and provides implementable suggestions.

A Guide to Optimizing the Parameters of Small Laser Equipment (With Case Study)

In addition to providing an overview of the technology, the course also addresses the issue of optimizing parameters for small laser cutting machines, and explains techniques for adjusting core parameters such as power, speed, and frequency. The course also includes a practical component in which participants can practice using the machines.It covers common material processing schemes and how to avoid pitfalls, and is suitable as a reference for both newcomers to laser equipment and technicians looking to optimize production processes.

Methods to Improve the Durability of Marking Colors

In order to address the problems of color fading and corrosion on metal nameplates, the company has developed three core methods: material selection, process optimization, and post-process treatment.These included techniques such as adjusting laser parameters and applying an anti-oxidizing coating, which helped solve the problem of fading and improved the long-term stability of the laser marking colors.

Solutions to Problems in Colored Laser Marking of Precision Parts

They provide practical solutions to common problems with color printing on precision components, such as uneven coloring, fading, and material compatibility.This includes laser parameter adjustment, material pre-treatment, and equipment maintenance, all of which help the user optimize the marking effect and improve production efficiency.

How Laser Power Affects the Depth of Color on Metals

The power of the laser is a key factor in the coloring process.This article examines the relationship between the thickness of the metal oxide layer and the laser's power, and analyzes how the laser's power can be used to precisely control the depth of color of the metal and its color stability, offering practical suggestions for industrial design and processing.

Comparing the results of marking 304 and 316 stainless steel

By comparing the marking results of 304 and 316 stainless steel in actual tests, and analyzing the laser parameters, clarity, and degree of oxidation, we can help users choose the right stainless steel for their needs.

Uneven Color? How to Fix It in Three Easy Steps

The three-step process covers parameter settings, equipment calibration, and material compatibility, and helps you quickly solve the problem of color variation, thus improving processing quality.This is suitable for laser marking operators and industrial process users.

Five Practical Tips for Laser Marking Stainless Steel

The article covers five practical tips for setting parameters for laser marking on stainless steel, including power, speed, and frequency, and helps solve problems with blurry marking and low efficiency.Through the analysis of actual cases, we will teach you how to optimize parameters for different materials, thus improving marking results and equipment life.

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