Description- Laser cutting after they were introduced in the 19th century, the fashion designers are widely adopting laser cutting in garment manufacturing. In synthetic fabrics, laser cutting produces well-finished edges as the laser melts and fuses the edge, which avoids the problem of fraying produced by conventional knife cutters. Furthermore, use of laser cutting is increasingly used for leather due to the precision of cut components. In fashion accessories such as jewellery, laser cutting can be used to produce new and unusual designs to produce a fusion of apparel design and jewellery style. In laser cutting a laser is used to cut the fabric into the desired pattern shapes. A very fine laser is focused on to the fabric surface, which increases the temperature substantially and cutting takes place due to vaporization. Normally gas lasers (CO2) are used for cutting of fabric. The cutting machine includes a source of laser, a cutting head fitted with mirrors to reflect the laser beam to the cutting line, a computer to control the entire system and a suitable mean for removing the cut parts. The application of inert gases (N2, He) during cutting prevents the charring and removes debris and smoke from the cutting area. Like the mechanical cutting devices, a laser beam does not become blunt and need sharpening. Automatic single ply laser cutters are faster (30 40 m/min) than automatic multiple ply knife cutters (5 12 m/min). However, while cutting multiple plies, knife cutters are faster per garment cut and also cheaper. The limitation of laser cutting is the number of lays of the fabric that can be cut by the beam. Best result is obtained while cutting single or a few lays, but the accuracy and precision is not obtained with several plies. Technical Specifications- Model AccuCut â?? XXXX Laser type CO2 DC glass tube / RF metal laser tube Laser power Glass tube 60 W/ 80 W/ 100 W/ 130 W / 150 W Metal tube 40 W/ 60 W/ 80 W/ 100 W/ 200 W Wavelength 10.6m Supply voltage AC 230 V ± 10% Reposition accuracy 0.1 mm (MAX) Cutting speed 0-30000 mm/min Engraving speed 0-64000 mm/min Cooling Water cooled Work environment Temp: 0 C 45 C Humidity: 5% 95% Acceleration speed 1 G Graphic file support .plt, .cdr, .al, .dwg, .dst, .dxf, .bmp, .jpeg, .tiff, .gif, .pcx etc.
The UV laser marking machine is developed by using a 355nm UV laser. This machine uses a third-order intracavity frequency doubling technology. Compared with infrared lasers, the 355nm UV laser has a very small spot, and the marking effect is directly interrupted by a short-wavelength laser. The molecular chain greatly reduces the mechanical deformation of the material. Thermal deformation (cold light), because it is mainly used for ultra-fine marking and engraving. It is especially suitable for applications such as marking, micro-hole drilling of food and pharmaceutical packaging materials, high-speed dicing of glass materials, and complex pattern cutting of silicon wafers.
At A.S Engineers & Fabricators, we utilize cutting-edge laser and CNC (Computer Numerical Control) machines to deliver precision engineering solutions for a wide range of applications. Our laser machines offer high-speed, high-precision cutting and engraving capabilities, allowing us to work with various materials, including metals, plastics, and composites. With laser technology, we can create intricate designs, precise cuts, and detailed engravings to meet the most demanding requirements. In addition to laser technology, our CNC machines provide advanced machining capabilities for turning, milling, drilling, and more. These automated machines ensure consistent and accurate production of complex parts and components, with fast turnaround times and minimal waste. Precision Laser and CNC machines offer high levels of precision, allowing for accurate cutting, engraving, and machining of intricate designs and complex shapes. Repeatability The automated nature of laser and CNC machining ensures consistent results, with the ability to replicate parts accurately across large production runs Versatility These machines can work with a wide range of materials, including metals, plastics, wood, and composites, making them versatile for various industries and applications Complexity These machines can create complex geometries and intricate patterns that would be difficult or impossible to achieve with traditional machining methods Speed Laser and CNC machines can produce parts and components quickly and efficiently, reducing production time and increasing productivity. Minimal Waste Laser and CNC machining produce minimal waste compared to traditional methods, as they optimize material usage and reduce the need for manual finishing
Plastic scrap (ldpe, pp, pvc, pet, pmma, hdpe, bopp, pe, ps, abs etc)., textile waste (cotton hosiery clips, cotton thread waste), denim, unbleached, selvedges rama string, rags for mattresses, wiping rags, licekrin dropings 100% cotton bales, card fly etc.) paper scrap.