In order to develop laser technology, the laser industry must first develop an understanding of how to manufacture and service the products it sells. Moreover, the manufacturer needs to establish a reliable supply of optical and other components. In addition, the design of the laser should be carefully worked out. Manufacturing procedures for industrial-grade precision lasers must be standardized and consistent, and appropriate quality control procedures should be in place. Furthermore, built-up lasers should be tested over a long period of time for their reliability. Regular maintenance and repair procedures should also be in place, and typically used spare parts must be readily available.
To make a more efficient and cost-effective solution, Laser Industries has invested in a sophisticated manufacturing process that combines lasers with different tools. Using a pressurised water jet with a diameter of a hundred millimetres, the water jet acts as a liquid laser waveguide and supports the ejection of material out of the cutting kerf. This method is also known as micro-jet and enables a high degree of focus tolerance and a high degree of cooling in the cutting zone. It also protects the surface of the material from debris.
A laser is no longer just a box that shoots a single red dot. These systems are now being used in many industrial processes. In addition to cutting and weld metals, industrial lasers can mark parts with a traceable tracking code and measure part dimensions. Moreover, these machines are highly versatile, allowing multiple manufacturing cells to share a single laser source. A number of other industrial processes have benefited from the development of industrial lasers.
Another important use of industrial lasers is the flexible manufacturing. With recent developments in disk and fibre laser technologies, the power and output of these systems have risen to multi-kW levels. These technologies have opened up a whole new range of opportunities for fibre-coupled laser systems. By using the same laser source, multiple manufacturing cells can share a single source, leading to highly productive and flexible production solutions. This technology is now a widely used tool for high-volume production.
Other industrial uses of lasers include cutting, engraving, and micromachining. It is the use of a laser that is unique in this way. The resulting product is not only unique to one manufacturer, but it will have a high degree of personalization. It can be used to make personal wares. The versatility of this technique has led to its increasing adoption in several industries. As the laser industry expands, more applications for this technology are emerging.
STI Laser Industries is one of the few laser manufacturers in the world specializing in micromachining and laser cutting. Its focus is on manufacturing surgical tools and stents. The company also offers a comprehensive manufacturing platform. STI provides contract manufacturing services and prototypes to other industries. Its services are a great match for customers needing precision medical equipment. This technology allows for the manufacturer to manufacture and deliver the best products. In the end, a laser system is the best solution for the needs of both the manufacturer and the customer.