Anodizing CNC By-products

CNC (ComputerNumerical Control) has touched almost every form of manufacturing process in one way or another. However, manufacturing companies are not the only ones who need CNC in running their business everyday; companies that need specialized gears and tools need the ramification of CNC in completing the operation of their machineries for their business as well.

A CNC machine is programmable and easy to operate. In fact, one person can supervise many CNC machines because once the machines are programmed, they can usually be left to work by themselves.  Since the first asset offered by CNC machining tools is improved automation, the operation of the machinery has caused reduction of fatigue on the operator’s part – fewer mistakes were made and the operation became predictable and consistent. However, a CNC programmer must have the extensive knowledge of how the machine processes.

CNC has truly revolutionized the way intricate gears and parts were made. It has: 1) formed high accuracy in manufacturing, 2) shortened production time, 3) opened opportunity for greater manufacturing flexibility, 4) provided simpler fixturing, 5) contoured machining and 6) reduced human error. However, a craftily made CNC product will only be at its best when it is anodized.

Anodizing, in simple terms, is the process of coating with metallic material. Digging deeper, anodizing is the process in which electrolytic cells undergoes passivation in order to increase the thickness of natural oxide layer on the surface of metal parts. Anodic films are commonly applied to protect CNC by-products that are made from aluminium alloy, titanium, zinc, magnesium, niobium, zirconium, hafnium and tantalum.

Basically, anodizing is done to make the CNC by-products double its durability. But furthermore, CNC anodizing will also:

• Increase the corrosion resistance of the products. Corrosion occurs when manufactured metals go back to their natural oxidation states. Since anodizing is the application of thick coatings to metals, the process will literally make the “pores” of the decrease its size. In this way, corrosion resistance is achieved.
• Provide better adhesion for paint primers. Since bare aluminum is reactive with air, it will begin to reform to oxide to protect itself. However, when anodizing is done, the surface will be non-reactive or inert and this will cause the paint to be more adhesive.
• Make your CNC product more tenacious. Anodic films are much stronger and more adherent that other paints and metal plating. However, they are also more brittle. These attributes makes the films coat the metal and decrease its likeness to crack and peel.

Here are some of our products that have undergone anodizing:

Anodizing was a very old practice that started in the early 30’s. Over time, it was developed for commercial use. The modification of the process, as it has developed, has made anodizing safe and not harmful to human health. Products that are finished through anodizing are usually non-toxic and chemically stable.

What Are The Advantages of CNC Milling?

CNC Milling is a technique that is used on machines, programmed with special codes, to perform specific movements that allow it to cut materials like metal, steel and plastic and produce intricate designs. Because of this advancement in technology, CNC machines became very popular and are used widely in the manufacturing industry today.

CNC Milling has a number of advantages and these are:

Precision - precision is also a big factor why CNC Milling had a huge impact on the manufacturing industry. Before its time, everything relied to the skills of the machinist. The quality of work with CNC Milling has become more accurate and 3D designs were even made possible. In addition to this, the number of rejects dwindled dramatically.

Automated Cooling - one of the advantages of  CNC Milling is automated cooling. There are no more worries about having machines overheat or cause damages.

Speed - it is obvious that programmed machines work way faster than having a machinist operate it manually. On average, it is about 5 times faster than the traditional style. With this innovation, the industry has been more productive than never before.

Repeated Use - perhaps one of the best advantages of CNC Milling is that the programs can be stored and therefore be used over and over again. This only means that a metal could be cut the exact same way multiple times without worrying about uniformity and quality.


CNC Milling machines can operate 24 hours without stopping and these could be handled by people who don't have to be skilled at all. These things are equal to bigger profit for the industry of manufacturing - no need to hire highly-skilled machinists and more production time. With the invention of CNC Milling, the manufacturing industry will never be the same again.