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Aluminum Grades Chart PDF -- Types of Aluminum

When it comes to choosing the right grade of aluminum for a particular application, it’s best to play it by the numbers. That’s why this post contains a handy aluminum grades chart you can use to match your metal to your manufacturing challenge.

(Fun Fact: We have helpful charts for other materials too. Click here for a stainless steel grades chart, or click here for a carbon steel grades chart.)

What’s in This Aluminum Grades Chart?

First, why use aluminum? Practically a miracle metal, aluminum is almost as popular as steel. It also has some important advantages over steel. For example, aluminum is:

  • Less than ½ the weight of steel, so it’s ideal for certain vehicles (i.e. aerospace) and household items (think patio furniture you want to be movable)
  • While the toughness of aluminum in terms of impact resistance isn't great, it does offer natural corrosion resistance. When it corrodes, it actually forms a protective layer to prevent further breakdown
  • Fairly resistant to corrosion from chemicals, including salt
  • Reflective, making it perfect for many uses, including decoration
  • Highly conductive of both heat and electricity, so it’s good for transmission cables, heat exchangers, appliances, and many other applications
  • Non-ferromagnetic, non-pyrophoric and non-toxic, making it useful in electronics, flammable and explosives material handling, and food packaging
  • Softness makes it easy to fabricate into almost any shape or thickness


Aluminum is so adaptable in large part because of its alloys, and these alloys are what create aluminum’s different grades. You’ll want to keep handy this aluminum grade comparison chart, which accurately outlines these common aluminum alloys and their uses.

Being able to reference all the aluminum alloy strengths, as well as the disadvantages of aluminum alloys, is a time- and cost-saving win for your project.

Aluminum Alloy Categories

GRADE

TYPE

TRAITS

USES

355.0

Cast

Very hard. Good machinability and corrosion resistance

Cylinder heads

A356.0

Cast

General purpose alloy. High strength and good castability. Great corrosion resistance

Aircraft parts, pump housings, structural applications, pump housings, impellers

A360

Cast

High strength when treated. Average machinability, good corrosion resistance

Low-pressure applications, motor housings, cover plates

A380.0

Cast

Very hard. Good machinability and fair corrosion resistance

Electronics chassis, household furniture, tools, engine brackets, gearbox cases

A413

Cast

Poor machinability. Excellent corrosion resistance. Softer than other popular cast alloys

Thin sections, manifolds

514.0

Cast

High magnesium content, promoting hardenability through heat treatment and strain hardening. Also
adds susceptibility to intergranular corrosion.

Commercial food processing

712.0

Cast

Good shock resistance. Nice strength at elevated temperature. One of most expensive cast alloys. High zinc content; also includes chromium. This limits weldability

Decorative, farm machinery, machine tool parts, marine castings

1100

Wrought

Excellent corrosion resistance, workability. High
thermal and electrical conductivity

Food packaging trays

1350

Wrought

Excellent corrosion resistance, workability. High
thermal and electrical conductivity

Electrical applications

2014

Wrought

Easily machinable in certain tempers. Among the strongest aluminium alloys. High hardness. Difficult to weld, as it’s subject to cracking. Commonly extruded and forged. Corrosion resistance is poor.

Cycling frames and components

2024

Wrought



Copper used as the principal alloying element and can be strengthened significantly through solution heat-treating. Good combination of strength and toughness, but lower atmospheric corrosion resistance than many other aluminum alloys

Most widely known aircraft alloy

3003

Wrought

Moderate strength and good workability. Manganese is the major alloying element

General purposes, heat exchangers, cooking utensils

3004

Wrought

Can produce tempers with higher strength but lower ductility. (Is aluminum ductile in general? Yes; just avoid this grade.) Manganese is the major alloying element

Soda can bodies

4043

Wrought

Silicon’s addition lowers the melting point without producing brittleness

Filler alloy for structural and automotive applications

4047

Wrought

Unique; used as cladding or filler alloy. Filler strips can be combined to bond two metals.

Aerospace, automotive

5052

Wrought

Moderate to high strength, as well as good weldability and resistance to corrosion in marine environments.

Electronics, marine craft, other marine
applications

5059

Wrought

Resistant to saltwater corrosion

Marine craft, other marine applications

5083

Wrought

Highest strength of non-heat-treated alloys. Good weldability and resistance to corrosion in marine environments.

Marine craft and applications, U.S. military’s Bradley
Fighting Vehicle, inner auto body panels

5086

Wrought

Resistant to saltwater corrosion

Marine craft, other marine applications

5182

Wrought

Moderate to high strength, as well as good weldability and resistance to corrosion in marine environments.

Soda can lid

5754

Wrought

Moderate to high strength, excellent weldability

Inner auto body panels, auto frames

6061

Wrought

Heat treatable, highly formable, weldable. Moderately high strength and highly corrosion-resistant. Contains silicon and magnesium

Truck, cycle, and marine frames; general
purpose; marine craft, 
breathing gas cylinders for scuba

6063

Wrought

Heat treatable, with moderately high strength.
Excellent corrosion resistance. Can be successfully extruded.

Architectural and structural, marine craft, other marine applications, auto and cycling frames and components

6111

Wrought

Good corrosion resistance and precipitation hardening

External auto body panels

6351

Wrought

Heat treatable, highly formable, weldable. Moderately high strength and nice corrosion resistance

Breathing gas cylinders for scuba

6951

Wrought

Heat treatable to provide additional strength

Aircraft fins, heat
transfer and exchangers for aerospace

7005

Wrought

Relative ease of welding and manufacture. Does not need heat treating. Similar physical properties to 6061, except with higher density and (depending on temper) possibly slightly higher strength

Less expensive bicycle frames

7050

Wrought

Heat-treatable, incredibly strong alloy. Zinc is primary alloying agent. Magnesium, copper, and chromium
exist in small quantities.

Aircraft structures, aircraft parts, high-stress applications

7075

Wrought

Heat-treatable, incredibly strong alloy. Zinc is primary alloying agent. Magnesium, copper, and chromium
exist in small quantities.

Aircraft manufacturing where highest strength possible is a must,
cycling frames and components

7475

Wrought

Heat-treatable, incredibly strong alloy. Zinc is primary alloying agent. Magnesium, copper, and chromium
exist in small quantities.

Aircraft manufacturing where highest strength possible is a must


How Does the Aluminum Grades Chart Work?

Aluminum alloys break down into a couple of broad categories: wrought and cast composition. Wrought and cast alloys are each then divided again into categories depending on the mechanism that develops their properties. Very simply put, engineers use either heat treatment or mechanical methods (sometimes both) to develop wrought and cast aluminum alloys.

Now comes the tricky part. The Aluminum Association has devised a four-digit alloy classification system to separate alloy families (for example, 3xxx) for wrought alloys and a three-digit plus decimal system (for example 2xx.x) for cast alloys. The digits tell you the alloy’s chemical composition. The decimal attached to the codes for cast alloys refer to alloy limits, but don't put too much thought into them.

An example of how to use this chart to your benefit is this: If you’re looking for the strongest aluminum alloy to use in building aircraft, you probably want copper as an alloying metal. But say your specs call for more magnesium and other metals. You can go to your chart and start with #2 on the wrought composition section because it contains alloys with copper as the main alloying metal. Then it’s just a matter of adding the right amount of magnesium and any other specified elements.

Of course, this is more than just an aluminum strength chart -- be sure to check out all the other standouts by corrosion resistance, formability, and so on. Each project has a top priority in terms of material properties -- what's yours?

Narrow It Down Yet?

There are more than 500 aluminum alloys registered with the Aluminum Association. You can see how having a chart on hand helps cull the herd rather quickly. It’s all about getting the right metal for your project, saving you from wasting time and money on a redo.

Getting your metal manufacturer involved early in the design process can also benefit your project's success rate. The right vendor will know which metal is best for your project and which ones are readily available, saving you lead times and maybe even cost.

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(Editor's note: This article was originally published in July 2018 and was recently updated.)

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