Laser cutting machines have significantly impacted the entire metalworking process. Architects, engineers, and designers increasingly commonly utilize them as they offer a significant benefit for generating precise and adaptable metal designs. The key is that experts in the industry can do intricate work with exquisite quality and delicacy due to the high level of accuracy laser cutting offers.
The development of laser cutting started in the last century
Although laser die cutting is considered a relatively new technology, it celebrated its 60th anniversary in 2020.
The 20th century saw the invention of laser machines, which eventually became the finished product as a result of numerous breakthroughs and discoveries. The following is the process by which the metal cutting machines that we are familiar with were created in the last century:
- Radiative forcing (1917): When radiation occurs under the influence of an external electromagnetic wave. The phenomenon was discovered theoretically by Albert Einstein.
- The first laser: It was created in California in 1960. It was made using a synthetic ruby stone, which produced a deep red glow.
- CO2 laser cutting: It was discovered in 1964 and was more affordable than previous laser cutting methods. Subsequently, in 1970, it was also included in industrial laser-cutting devices.
- Fiber laser cutting: Founded at the American Optical Society in 1963. The initial application of the technology was in the medical field and it gained widespread recognition in the 1980s.
- Early Industrial Uses: Western Electric debuted the first laser for production application in 1965—the first gas laser to operate continuously. An oxygen laser was used to cut metal in 1970 in order to produce metal structures, among other materials.
The laser generated a lot of noise in scientific and industrial circles back in the day. Newspapers referred to it as “death rays” frequently, and many people voiced misgivings about this new, “super” technology and expressed fear of it.
These fears were particularly heightened in 1964 when Sean Connery narrowly avoided being split in two by a laser in one of the Bond films.
This series of advancements demonstrates how the invention and advancement of lasers led to the development of laser-cutting equipment.
The laser cutting process back in the day
In the past, the operator needed to physically inspect the cut quality, change the metal, adjust its position, and oversee the entire operation in order to accomplish precision laser cutting. Regardless of the kind of machine tool, this procedure was done for every metal. Put another way, cutting metal used to be a somewhat involved process that involved more than just pushing a button.
Laser cutting nowadays
These days, laser cutting is a very common and quickly evolving procedure that is employed in many different industrial domains, such as construction, architecture, medicine, and marine engineering. Modern laser cutting does not involve physical labor, even if it does require an operator to be there. thereby offering a more straightforward metalworking procedure.
Although laser machines operate at breakneck speeds, other factors have also contributed to their advancement. Newer machines, including a tube laser cutting machine, have an automated laser cut program that are a step ahead of even a few-year-old laser cutters, many of which require operator intervention.
The innovation allows for more meticulous metalworking and precise cutting. And with modern machinery, professional metalworkers are able to do more metalworking with less effort.
Metal cutting in construction
The quality of buildings and other projects being produced today has significantly increased thanks to innovative metal-cutting technologies. Here are a few advantages:
- Fast cutting
- High precision without compromising the quality of the metal
- Cutting different types and thicknesses of metal
- A simpler process
Owing to these benefits, a large number of metalworking businesses now offer premium goods and a specialized method.
Metal cutting at All Metal Constructions
A construction company with Armenian roots, All Metal Constructions offers specialized metalworking services. The business does metal bending and cutting for a broad range of construction projects, from building metal structures to making metal roofs and railings.
The company uses the plasma method, waterjet system, and guillotine method to cut metal, producing precise and high-quality products.
One can specifically mention plasma cutting. It is designed to be used for cutting metal building details and ornamental features.
The advantages of plasma cutting
- Speed: Plasma slices through steel and metal more quickly than other cutting methods.
- Accuracy: Plasma offers exceptional precision and the capacity to produce one-of-a-kind designs.
- Variety: Able to cut through a range of metals, such as aluminum, stainless steel, and steel.
Plasma cutting is one of the more recent inventions that is always being improved upon to guarantee higher quality and more efficient production of metal structures.
The introduction of laser cutting technologies has fundamentally changed how we think about and handle metalworking. More accurate cutting, more productive work, innovative designs, and impressive architecture. All this continues to develop and is widely used in almost all corners of the world, where sophistication is combined with high-quality raw materials that have undergone a flexible processing process.
All Metal Constructions greatly value each customer’s pleasure, and this is accepted as a standard for growth and advancement. Therefore, you may rely on a professional company that uses top-notch German, Italian, and Chinese machine tools for metal processing when it comes to manufacturing constructions and metal processing.