Advantages of MeltioOctober 13, 2023
How do you decide if a Meltio wire-laser metal 3D printer makes sense for your business?October 14, 2023
Meltio’s metal 3D wire-laser technology uses wires instead of powders to produce durable metal parts. This has a bunch of different uses across different industries and at different points in a product’s lifetime. Let’s break down some of these uses to see how Meltio is changing these areas:
1. Spare parts and permanent fixes in heavy Industries including Energy, Aerospace, Automotive, and Defense:
Industries like energy, aerospace, automotive, defense and other heavy machinery depend on having spare parts and good repair solutions available. Meltio’s wire-based metal 3D printing offers a game-changing way to address this need. Instead of keeping huge inventories of spare parts, businesses can make components as needed, reducing downtime and costs from traditional manufacturing and supply chains. Being able to do repairs precisely and quickly, even in remote or challenging environments is super valuable. This application makes sure critical equipment stays operational, minimizing disruptions and improving the overall efficiency and reliability of these industries.
2. Mass Producing customized parts:
Meltio’s technology can do much more than just repairs. There’s a major demand in areas like medicine aerospace, food, transportation, and consumer products for high-quality precisely engineered parts and products. Wire-based 3D metal printing seems like a good option for mass manufacturing in these industries and it can make complex shapes, reduce wasted material, and maintain tight tolerances, so it’s great for things like customized medical implants aerospace parts, intricate food processing equipment, and lightweight car parts. It also lets you quickly prototype and iterate on designs, speeding up development and helping manufacturers adapt fast when markets change.
3. Strong, Dense Parts!
Being able to make parts so dense opens up a lot of uses, especially in parts created for planes, medical implants, and race cars that need to be perfect. Because these parts are dense with a solid structure, they can handle tough jobs and extreme conditions.
The Meltio LMD process creates very dense and therefore very strong parts. It can make parts that are almost completely solid, with like 99. 998% density. That’s a huge deal because it means the parts will be very strong and durable since there’s barely any empty space or pores inside them. The process also makes parts with superior microstructure. Microstructure is the internal structure of the material are refers to how the molecules or crystals are arranged. A better microstructure means the part will have better properties like hardness, toughness, etc which is great for parts that need to withstand stresses or corrosion.
4. Material Research at Tech Centers, Colleges, and Universities:
Research places like tech centers, colleges and universities are important for moving forward in materials science and engineering. Meltio’s metal 3D printing fits right in. Researchers can use the technology to explore and create new materials, alloys, and manufacturing processes. They can test out exotic materials like titanium or Inconel that are really hard to shape the old-fashioned way. Since Meltio lets you control the printing process precisely, it helps researchers push boundaries in material science to find new materials with better properties and applications.
Another key is that they can consistently achieve these results. The process is reliable and repeatable. Overall, it seems Meltio has figured out how to 3D print metal parts that are extremely dense, strong and durable. That could open all kinds of new applications.
Want to know more? Read more from our Introducing: Meltio blog series by clicking on the blogs listed below: