Did you know aluminum can pull its weight – literally – vs. steel? And did you know extruded parts are often stronger and lighter than formed-sheet parts?
Aluminum extrusion is a modular, lightweight way to create intricate profiles and seamless systems without having to involve a welder.
Yet, for heavy-duty and structural framing, some engineers remain skeptical – how much weight can aluminum extrusions actually hold?
Hopefully this guide will open eyes to what’s possible with structural aluminum – extruded profiles and brackets!
Let’s start with the indisputable basics of aluminum extrusions, regardless of product or supplier.
“How strong is extruded aluminum?” isn’t a question with a 100% firm answer. A better question is, “How much strength do I want from my extruded aluminum system?”
Aluminum extrusion framing components are capable of supporting high-load applications:
That might sound odd, since aluminum is a soft metal. Indeed, it adds strength by relying on alloying elements such as:
With the right profiles, an engineer can achieve strength-weight balance that outclasses other processes – even ones that use steel.
The top two numbers engineers use to compare aluminum types are tensile strength and yield strength.
Material composition and heat treatment are what influence a profile’s initial strength.
|
Grade |
Use |
Tensile Strength |
Yield Strength |
|
1100 |
Profiles |
13,100 |
4,930 |
|
3003 |
Profiles |
16,000 |
5,950 |
|
6005-T5 |
Profiles |
37,700 |
34,800 |
|
6061 |
Profiles |
18,000 |
8,000 |
|
6061-T6 |
Brackets |
45,000 |
40,000 |
|
6063-T6 |
Profiles |
35,000 |
31,000 |
|
7004 |
Profiles |
50,000+ |
40,000+ |
|
7075-T6 |
Brackets |
83,000 |
73,000 |
(Some data from MatWeb)
There isn’t much difference in the quality of raw materials from manufacturer to manufacturer. Instead, focus on how you and the manufacturer use the material.
In each unique structural application, aluminum extrusion’s weight capacity depends on:
Failure to understand #1 can make or literally break your assembly!
Surprised to see this before grade?
If so, think about the nature of aluminum structural shapes.
A workbench leg could hold 75,000 lbs. of compressive force. That’d mean 300,000 lbs. total across four legs.
You won’t accomplish anywhere near that strength if you use the materials poorly. Design decisions that impact strength include size, shape, wall thickness, and – above all else in structural framing – connection.
As for connection …
In aluminum structural framing, connection has always been the weak point.
T-slot extruded profiles are a common component of modular framing systems. The “T”-shaped track allows pieces to lock together without welding or otherwise adding joints.
However, some T-slots are overdesigned (due to mistrust in aluminum’s structural integrity) and look stronger than they are in practice. Even with a strong initial product, T-slot-based framing systems loosen and become misaligned over time.
Fortunately, for structural aluminum designs, there are emerging alternatives to T-slots. These modernized solutions use self-aligning brackets to keep connections precise, lending impressive support to a weight-bearing structure.
The strength of traditional T-slot profiles bears little relevance, as they’re still limited by their poor connection system. With the more recent alternatives, it’s the opposite situation – profiles are the only limiting factor in an assembly’s strength thanks to a superb connection.
Ask your aluminum extrusion design partner about mechanically locking fasteners that optimize your assembly’s strength. These modular systems eliminate the constant shifting of T-slot joints and are able to tap the full potential of the profile’s strength.
Yes, choice of grade will impact your extruded aluminum’s strength – just not as much as engineering does. Note that the grade your profiles use might not be the one your brackets should use (and vice versa).
Aluminum alloys common in extrusion profiles themselves include:
This common magnesium-silicon alloy excels with features normally difficult to extrude, like thin walls and intricate details. Easy to anodize (more on that below), 6063 withstands corrosion better than the average grade.
The 6063-T6 (heat-treated) version is one of the most popular grades for aluminum structural framing systems.
This medium-strength alloy is a notch above 6063 in sturdiness and sometimes used interchangeably with 6061. It also offers great corrosion protection.
The T6 tempered variation is popular in designing platforms.
This is the ages-old standard for structural components.
The 6061 alloy combines high fatigue strength and fracture toughness into a single profile capable of replacing welded steel.
Because it contains fewer additives, this “alloy” (that’s still 99% aluminum) remains quite soft. While you can’t heat treat it, you can extrude 1100 aluminum into complex shapes that surpass bare-minimum strength levels despite their softness.
This grade is one of the best for staving off corrosion for aesthetic-minded jobs.
Arguably the most popular aluminum alloys across all applications, 3003 aluminum adds manganese to make it stronger than 1100. This medium-strength material adds decent corrosion resistance, though not as much as 1100.
If you’re willing to pay a little more than for 6061, this aluminum-zinc alloy may be for you. It’s press-heat-treatable, helping it handle stress better than 6061.
In extruded structural framing systems, not all the strength has to come from the profile. In fact, the strength of your structure is entirely dictated by bracket strength (the connection) for T-slot systems. Your bracket connection also impacts how much weight your aluminum extrusion profiles can hold.
Common grades for aluminum structural brackets include:
This variant of 6061 undergoes tempering to increase yield strength. Called aircraft-grade aluminum, it’s actually stronger than some stainless steels.
Only certain components exclusive to the AngleLock line – such as rivets, threaded inserts, and custom screws – use this grade in adjustable framing brackets. It’s reserved for the most demanding components in a modular framing system.
Because 7075-T6 can’t produce intricate shapes, it’s a poor fit for the frame itself in some applications. But in special-case, high-stress structural assemblies, it deserves more attention.
Don’t forget: You can boast the world’s strongest profile in your framing assembly, but it won’t meet its power potential if the brackets are weak.
There are two ways that end use affects a structural project’s success.
Everyone knows the first factor – environment. The second one – dynamic application – is less understood.
In a static application, any two structural aluminum solutions may provide similar results. But a dynamic end-use – one involving force and vibration – can totally throw off the results of your weight-bearing project.
This is where the strength of the bracket and your preferred engineering solution will come into play. A traditional T-slot bracket relying on a pivot and friction loosens during movement and fails to retain long-term strength. However, a mechanically locking bracket with an angled bolt tightens over time, maintaining your original specs despite vibration or other movement.
While less predictable, the environment is fairly simple to plan around when working with structural aluminum.
Consider your plans for your product. Will it sit in a factory or on a beachfront? Will it live the easy life or be surrounded by harsh chemicals?
Your project will, of course, better support loads over time if it’s not exposed to saltwater or other corrosives.
What’s less obvious is that aluminum’s strength can actually rise slightly at below-freezing temperatures (even several hundred degrees below zero). If your product will reside in a cold environment, there’s value in choosing aluminum over steel, which becomes brittle in frigid applications.
In hot applications, typical aluminum grades start to lose strength around 300°F, with more severe degradation at about 400°F and up.
So, how much weight can an aluminum extrusion can hold? Contrary to outdated belief, aluminum extrusion framing systems are strong enough to excel in most manufacturing, automation, and aerospace/defense projects.
Make sure you weigh (pun not intended) your strength needs against other project-specific factors:
Your aluminum extrusion supplier may offer design and engineering support. Lean on it to best balance those factors.
If you’re not at that stage yet, continue learning about structural aluminum on our blog: