The top 3 aluminium alloys: All you need to know

16 Dec.,2024

 

The top 3 aluminium alloys: All you need to know

Aluminium has become a very popular material for applications across many different industries and in CNC machining. Its popularity over other materials is associated with its excellent mechanical properties. If you want to learn all about the top 3 aluminium alloys, keep reading as we disclose all the details.

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Aluminium alloys features and properties

Aluminium is a metallic material with silver or matte grey colour. The latter usually depends on the surface roughness. 

One of the main reasons for using aluminium across different industries is that it is lightweight, ductile, and malleable. 

Other relevant properties of the top aluminium alloys, are the following:

  • Affordability
  • Softness
  • Durability
  • Corrosion resistance.
  • It has a melting point of 640°C.
  • It has a density of 2.68 g/cm3. 
  • It has excellent heat and electric conductivity.
  • It is ideal to operate at temperatures below zero since its strength increases at such temperatures.

Also, aluminium does not create magnetism issues and it is not flammable.

On the other hand, aluminium alloys have a couple of disadvantages that you must consider. These disadvantages are:

  • Copper may have better heat and electric conductivity.
  • Some alloys are sensitive to high temperatures above 200 and 250 °C (392 and 482°F) and might lose strength.

Now that we know a bit more about aluminium, it is time we discover the top 3 aluminium alloys.


 

Top 3 aluminium alloys

There are a number of aluminium alloys in the current market. Yet, we truly believe there are 3 that excel above the rest for most applications. These are aluminium , aluminium , and aluminium . Let&#;s see each of them in more detail.

 

Aluminium

Aluminium is well-known for its excellent fatigue strength. This alloy has better corrosion resistance than the aluminium alloys. Most times, machine operations are conducted using oil lubricants.

The primary element found in the aluminium alloy is zinc. With zinc as the top alloying element, this aluminium grade obtains a series of properties that make it suitable for a wide variety of applications. 

However, this aluminium alloy is not easily weldable, and it may be considered too costly for some applications.

The main properties of the aluminium alloy are:

  • High strength, comparable to many grades of steel.
  • High fatigue strength. 
  • The aluminium alloy can be machined in annealed condition, and it is considered to have medium machinability.

Aluminium applications

The aluminium alloy is a great solution for applications that require lightweight components with the highest level of strength possible. Also, the aluminium alloy allows to achieve very complex geometries with high precision. Common applications for aluminium parts include but are not limited to:

  • Automotive parts
  • Aerospace parts
  • Some medical devices 
  • Bicycle components
  • Rock-climbing equipmen

Because of the cost, you should only use it if your specific application requires the essential features of this alloy. Otherwise, you may be better off with a cheaper alloy.

Possible treatments after machining aluminium

This is an aluminium alloy that accepts different types of treatments after machining. The most common treatments include heat treatment, annealing, and ageing. However, anodizing is not a possible treatment after machining aluminium. 

 

Aluminium

The aluminium alloy is popular due to having exceptional performance in extreme environments, such as exposure to seawater and industrial chemical environments.

The alloy is also exceptional for welding since it does not lose strength during the process. In addition to a very high resistance, it is recommended for use at temperatures up to 600°C.

Other relevant properties of the aluminium alloy include:

  • Good formability.
  • Excellent ductility.
  • High corrosion resistance in marine applications.
  • Low density.
  • Excellent thermal conductivity.
  • Excellent weldability.

Aluminium applications

As it was mentioned above, the aluminium alloy is excellent in applications that require resistance to harsh environments. Therefore, the main applications for this alloy are associated with that aspect.

Aluminium alloys are mainly used in:

  • Marine application such as shipbuilding.
  • Rail cars.
  • Vehicle bodies.
  • Tip truck bodies.
  • Mine skips and cages.
  • Pressure vessels.
  • Telecommunication towers.

Given the properties, you should consider this aluminium alloy whenever exposure to the types of environments above is not avoidable. Another important factor to select is the need for high mechanical strength and fatigue resistance, as long as the part does not operate at very high temperatures.

Possible treatments after machining aluminium

This aluminium alloy allows different treatments to be used on the machined part. The most common ones include:

  • Annealing
  • Strain hardened
  • Strain hardened and then stabilised
  • Anodizing

 

Aluminium

The aluminium alloy is mainly known for offering increased resistance when compared to the 5xxx series alloys.

This is the strongest alloy in the 6xxx series, and it is often called structural aluminium alloy since it is very popular for structural components.

The main reason for this alloy to be so strong while having very high corrosion resistance is that it contains a large amount of manganese which controls the grain structure, thus making it more stable.

Perhaps the only negative characteristic of the aluminium alloy is that thin walls are difficult to machine as well as complex shapes are difficult to achieve via extrusion. Also, while it accepts welds, it is important to consider that the welded zone will lose strength.

Yet, it is a very recommended substitute to low carbon steels, especially when the high corrosion resistance is needed.

Aluminium applications

We already mentioned that the aluminium alloy is widely used in structural components such as trusses and bridges. But of course, this could not be the only application for a material with such properties as those mentioned above. Machinery components are also commonly made with this aluminium alloy.

Common applications for the aluminium alloy include:

  • High stress applications
  • Cranes
  • Transport applications
  • Ore skips
  • Beer barrels
  • Milk churns

Possible treatments after machining aluminium

The aluminium alloy is very versatile, and it also accepts different treatments to make it even more suitable for specific cases. 

The most common treatments used after machining this alloy are:

  • Annealing
  • Aging
  • Anodizing



Final words

There you have it, these are the top 3 aluminium alloys, their properties and applications. 

With this information you should be capable of making a smarter selection for your specific application. 

However, if you are still in doubt, the recommendation is to consult an expert. Do not hesitate to contact us, we will be more than glad to help you!

All About Al: Choosing the Right Aluminum Alloy

If you want to learn more, please visit our website Aluminium Alloy Conductor.

 

In manufacturing, aluminum is rarely pure. Instead, manufacturers form alloys that dramatically increase aluminum&#;s strength and stiffness, while maintaining its other desirable properties. Both professionals and non-professionals often make comparisons between aluminum and steel, because the two metals are both used for such a wide variety of products.

But comparing aluminum to steel is a bit like comparing apples to oranges: steel is already an alloy, while aluminum is an element. Carbon steel, a basic steel alloy, is composed of iron (Fe) and carbon (C). Pure aluminum, despite its many winning properties, is too soft and not strong enough for most industrial applications. But aluminum alloys can be thirty times stronger than pure aluminum, and regularly exceed steel in strength-to-weight ratios.

EC Aluminum: as pure as it gets 
Used in electrical transmission lines, electrical-conductor-grade aluminum (EC Aluminum) is comprised of a minimum of 99.45% pure aluminum. EC Al wires have 2x the conductivity of copper by weight.

If you're considering working with aluminum to produce a part or product, it's important to have an idea of the properties of different aluminum alloys. Whether you're interested in aluminum casting or another process like extrusion or stamping, your suppliercan help you decide on the perfect balance between properties like strength, weight, malleability and castability. Aluminum alloys are often divided into two categories: wrought alloys and casting alloys.

  • Wrought alloys are intended for plastic manipulation, and so are designed to be highly ductile and fracture resistant.
  • Casting alloys are intended for casting, and so must balance low melting points and low coefficients of expansion with attractive characteristics as solids.

The following chart is a great starting point, listing several commonly used aluminum alloys, along with their compositions, properties and common uses.

 

Alloy Designation

Forming Technique

Composition (%)

Characteristics

Common Uses

Wrought

99 Al

Nearly pure Al; excellent conductivity and formability

Electrical wiring

-T4

Wrought

4.4 Cu, .6 Mn, 1.5 Mg

Good workability and machinability; good corrosion resistance

Aircraft, automotive parts

-T6

Wrought

.28 Cu, .6 Si, 1 Mg, .2 Cr

High strength and corrosion resistance

Architecture, automotive, sports equipment

319

Casting

3.5 Cu, 6 Si, 1 Zn, 1 Fe

Excellent castability and corrosion resistance

Engine parts, gas and oil tanks

A356

Casting

7 Si

Excellent castability, but with increased strength and ductility

High strength structural parts, machine parts, truck chassis

712

Casting

5.8 Zn

High tensile strength; heat treatment not required

Marine castings, machine tool parts

By combining pure aluminum with other elements to create aluminum alloys, manufacturers are able to improve strength while maintaining light weight, conductivity and corrosion resistance.

Download our free ebook, Manufacturing with Aluminum, to learn more about producing aluminum products.

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