Laser cutting can be used for a wide variety of applications in many modern industrial sectors. The popularity of laser cutting and its reputation for high-quality depend upon the efficiency, precision cut, and precision of the laser’s capabilities. While lasers are more precise and faster over other options, but they are also more secure. For example laser cutting is carried out inside a sealed light box, which means that hands and unnecessary parts are protected from harm by accident (i.e. there is no blade that is allowed to run freely to cut materials). The process is less expensive because it uses less of materials, incurs less cost of maintenance and has the flexibility to be used with a wide variety of different materials.
The high-quality, safety and value of laser cutting make it a very popular tool across a wide range of industries. Let’s take a review of a few sectors that are currently heavily dependent on the technology:
This huge industry is one of the most effective uses of precision engineering. It is dependent on using a laser cutting service for the preciseness and flexibility required to build mechanical devices and construction. Small and intricate parts need to be cut, and tiny holes have to be drilled. Aluminum alloys that are heavy-duty and rare metals are usually required to be cut using the lowest heat-affect zone as well as an impeccable surface. Lasers are the only option to meet the requirements of these materials.
In addition to aeroplanes the industry also makes use of laser cutting to make everything from combustor lines as well as metal detectors conveyors, trolleys, and even stillages. Laser drilling and engraving frequently combine in this industry to deliver unbeatable results.
Similar to aerospace, the aerospace industry can’t exist without tiny and complex components (e.g. antenna apertures) that can only be manufactured reliably by using laser cutting techniques.
Hydroformed components (metal manipulating into 3D forms) are the most important component of automakers today, particularly for high-end, specialty or exotic automobiles (e.g. engines, exhausts systems). Laser cutting is the only method to produce these forms efficiently, smooth and with a high degree of accuracy.
But, lasers don’t only excel in cutting metal; they can also be utilized for other purposes for example, like severing fabric to make airbags. When used in airbags laser cutting melts edges of the fabric quickly and there’s no risk of frayed fabric remaining.
Laser technology has a wide range of applications in this field because of its unique capability to perforate and cut components and small parts. Every year the electronics industry requires products that are ever smaller. This means that traditional processes to cut simply can’t be employed anymore. Only high-precision lasers are up to the task. A popular application of this technology is the creation of microSD cards as well as multi-layer circuit boards with flexible layers. Because lasers are so precise, they need tiny amounts of space around any component. This lets circuit boards be made with the smallest size possible.
Additionally, lasers are essential to the cutting of electronic items, like the high-quality plastic or metal cases for laptops, mobile phones as well as personal computers.
This industry does not only create components, mechanisms, and devices that are incredibly tiny, but lives depend on their performance, which is why the consistency and precision should be of the highest quality achievable. In reality, the development of devices for medical use is among the most common uses of laser-cut materials like high-quality stents that relieve kidney stone pain as well as contraceptive measures for birth are regularly cut using laser.
Lasers also are required for the production of a wide range of hospital-related equipment including bed frames in stainless steel, as well as trolleys and aluminium machinery parts as well as brackets and valve frames bone vessels clips, reamers and shafts that are flexible.
Like other industries, in the healthcare industry typically uses rare metals which are tough to cut. Titanium is a perfect example of this: the metal is biocompatible, lightand non-corrosive and can be successfully bonded with bone. These properties make it an essential material in surgical instruments and orthopaedic plates rods, pins, and other devices. But its toughness makes it difficult to work with unless it is processed at low speeds and temperatures and wears out the tools. Laser cutting is a feasible and less expensive alternative cutting material to an impressive 2mm in thickness, with very little distortion.
Perhaps the most significant application of laser technology can be operations on human skin organs and bones. Since lasers cut precisely quickly, efficiently, and effectively with minimal thermal damage to the tissues, lasers are frequently preferred over conventional tools (e.g. scalpels, for instance). Nowadays, many procedures for eye surgery are completely dependent on the superior performance of the laser.
All in all, whether you are manufacturing with plastics, metals or fabrics, the quality and accuracy provided with lasers are unmatched by any other. The wide range of applications makes it essential to the advancements in electronics, aerospace cars, medicine, and automobiles that we enjoy in the present. Laser cutting technology is no wonder and related services are now found everywhere in today’s economy!
North London Laser
FTN9 24, Church St, London N9 9DU