Whether you happen to work in the automotive industry, manufacturing sector, or any other niche that relies heavily on intricate parts, provisions, tools, or components, it’s in your best interests to take a closer look at the documented advantages associated with laser cutting. You can check out some of the advantages on the Quora website.
To help you better understand the salient benefits associated with this modernised fabrication process, we’ve created a comprehensive guide describing the ins and outs of contemporary laser cutting – so feel free to use this brief exposé as an introductory guide of sorts.
The Alternative Cutting Methods Are Inefficient and Costly
First of all, it’s important to note that the two most prominent alternatives to laser cutting come with a myriad of detrimental side effects:
- Water-jet cutting – which uses a high-powered jet of water and coarse sediment to manufacture metallic implements – is very sluggish, noisy, and it produces an inordinate amount of debris during the production process, not to mention the fact that water-jet nozzles tend to deteriorate and degrade very quickly. As such, water-jet cutting is falling out of favour in today’s landscape, due in large part to its inefficiency and wastefulness.
- Plasma cutting – which utilises a modified jet of hot plasma to fabricate and alter components – is faster and slightly more proficient than water-jet applications, but it produces incredibly harmful fumes and copious amounts of heat during operation. Additionally, plasma cutting has been known to create microfractures in most materials, which significantly decreases the functional lifespan of labour-intensive products.
As a result, laser cutting has fulfilled the integral need for a safer and more reliable production method, which is why so many companies are beginning to partner with laser-specialised aluminium fabricators in Coventry (and all over the UK, for that matter).
Laser Cutting Is a Non-Contact Process
By using a potent optical laser beam and technologically advanced motion control platform, operators can avoid creating physical contact with the material and considerably minimise damage to the final component. This effectively reduces the maintenance and upkeep requirements for moving parts in countless industries.
It Is Also Extremely Versatile
As any reputable fabricator will tell you, modernised laser cutting can handle a wide range of applications:
- Stainless steel
- Coated materials
To boot, the laser-cutting mechanisms can cut both thick and thin materials simultaneously, which provides increased adaptability and flexibility for nuanced orders.
Regardless of the nature of your order or the type of material in question, laser cutting can produce parts that are accurate to within two one-thousandths of an inch (.002”) and guarantee a smooth, proportional finish. This type of exactitude reinforces the long-term functionality of various components in a multitude of settings and ensures minimal waste during the production process.
Outsourcing your fabrication needs to a laser cutting specialist will also allow you to decrease your overhead costs – a laser cutting machine uses approximately 10kW of power, while other processes require upwards of 40kW to perform the same tasks. These savings – when combined with the durable construction of the resulting items – are advantageous for anyone looking to reduce production expenditures.
As you might imagine by now, laser cutting represents the foremost resource in today’s manufacturing landscape, so be sure to reach out to a reputable local fabricator for a tailor-made analysis and quote – you’ll be glad you did.