The traditional textile fabric production process requires post-processing such as grinding, hot stamping, and embossing. In this regard, the marking machine has the advantages of easy and fast production, flexible pattern transformation, clear images, strong three-dimensional sense, and the ability to fully express the natural color and texture of various fabrics, as well as being constantly new. So laser engraving is particularly suitable for fabric deep processing factories, textile fabric post-processing factories, garment factories, and surface and auxiliary material processing enterprises.
Clothing fabrics can achieve good wearing and aesthetic effects through dyeing and printing processes. Traditional clothing fabrics with artistic patterns are mainly processed through various printing and dyeing techniques, allowing different dyes to color the fibers of the fabric through patterns to form patterns. In addition, there are other chemical methods or methods such as heat transfer printing and digital spray printing to form floral patterns on clothing fabrics. However, a large number of them still rely on traditional printing methods for textile fabrics, with long production processes, single patterns, and complex change procedures. The production process is more limited by environmental protection, especially unable to meet the growing demand for personalized artistic effects on clothing fabrics. Given the drawbacks of traditional finishing techniques, the use of laser technology and computer-aided design technology for artistic finishing of denim fabrics, endowing them with special printing effects, has important promotional value.
The advantages of laser processing technology are not only reflected in helping the manufacturing industry transform its processes and achieve upgrades and upgrades. It is also a choice for difficult to process areas in the manufacturing industry. Especially in recent years, in the processing of high-strength, high hardness, low thermal conductivity, and high brittle materials, laser utilizes high-power laser beams and can precisely control the action point, surpassing traditional processing techniques with advantages such as non-contact processing!