Introduction to AMS 4928 Titanium Alloy

AMS 4928 is the titanium alloy used in the widest variety of industries. The Components of AMS 4928 are aluminum, vanadium, and titanium. The reason is, it resists corrosion and has an impeccable strength-to-weight ratio.

It’s also biocompatible. So, aerospace and medical industries use it the most. Here, we’ll cover some of it. Chemical composition, the physical properties, and the most common applications so that the reader understands the benefits and properties of this specific alloy.

AMS 4928 Titanium Alloy Properties and Characteristics

The beauty part about AMS 4928 titanium alloy is, it’s got unique properties and is the best choice for a variety of applications within the industries used. The fact that it will not deteriorate remains a lightweight substance and is corrosion-resistant makes it a miracle alloy.

AMS 4928 Applications in the Aerospace Industry

 The main application for AMS 4928 is the aerospace industry. For aerospace, It’s important to have high corrosion resistance. The durability must be excellent, in fact, perfect. And the strength-to-weight ratio is the most important feature due to the maneuvers a fighter jet must perform making this an excellent alloy for these applications.

The specific applications that the aerospace industry uses with AMS 4928 are various aircraft components, rocket engines, and even space exploration. That’s impressive, due to the amount of pressure, an aircraft or spacecraft must sustain.

AMS 4928 in Medical Implant Advantages

AMS 4928 has been used in medical technology in the form of implants. It has quite a few advantages, both for the doctors and the patient. Being biocompatible means it can be used inside the human body without the worry or the danger of adverse reactions.

Medical implants need to stay in place for a number of years, so anti-corrosion is essential for parts inside the human body, which have a large percentage of fluid.

AMS 4928 is also ideal for more durable implants, such as joint replacements and other high-stress components like pacemakers and dental implants.

Virtually any implant placed inside the body must either take a ton of pressure as per the force exerted or be operable for extended periods of time. The pacemaker is a great example of the latter.

AMS 4928 Titanium Alloy Component Manufacturing Techniques

Cold Forming:  It’s shaped by using pressure called cold forming and is commonly used to create simple shapes and smaller components. Hot forging does the same but with heat.

Welding: This technique joins two or more pieces of titanium alloy together and creates a single fused component.

Additive Manufacturing: This process utilizes computer-aided design software to create a digital, three-dimensional model of the part.

Machining: This technique involves removing material from the titanium alloy using a cutting tool.  Those techniques are called:

•  Drilling.
•  Turning
• Milling

Heat Treatment: This involves putting the titanium alloy through high temperatures to change its properties.

In conclusion, AMS 4928 is an important part of our way of life and will remain so for decades to come.

Related article: The Role of Titanium Suppliers in Aerospace, Medical and Industrial Applications