Have you ever wondered what the 'perfect' choice of aluminium for your project is? Aluminium is the most widely used non-ferrous metal, and there are dozens of commercial options available, which greatly vary in properties based on their alloy composition and temper. 7075-T6 aluminium offers an excellent balance of properties that make it a reliable choice for a great variety of jobs.
7075-T6 aluminium is an excellent alloy for highly stressed structural parts. It also has low density and great machinability.
What is 7075-T6 aluminium?
With zinc as the dominant alloying element, the 7075 aluminium alloy (also known as aircraft aluminium or aerospace aluminium) was the first alloy of high strength composed by Al-Zn-Mg-Cu that was able to successfully combine the perks of the inclusion of chromium to develop high stress-corrosion cracking resistance in sheet products. The composition of the 7075 aluminium alloy consists of 87.1 – 91.4% aluminium, while the zinc is present in a concentration of 5 – 6%. It also contains 2.1 – 2.9% magnesium, 1.2 – 2%, and no more than 0.5% of silicon, titanium, chromium, iron, manganese, and other constituting metals.
The 7075-T6 aluminium is a 7075 aluminium alloy with a T6 temper, which is achieved by treating it with solution heat, hom*ogenizing the 7075 cast at 450 °C for several hours, quenching, and then artificially aging it at 120 °C for 24 hours, which is around the time when it meets standard property requirements. This process guarantees achieving the peak strength of this alloy.
What makes the 7075 alloy stand out from other aluminium alloys?
The composition of the 7075 aluminium alloy series makes it the one that offers the most strength, to the extent that it is comparable to that of many steels. Although this is one of its most appealing properties, it is the combination with the rest of its properties that makes it the perfect candidate for highly stressed structural parts; its low density, great machinability, and its great ability to resist corrosion. It’s worth noting that compared to other aluminium alloys, itscorrosion resistanceis relatively low, although it is significantly better than many of the 2000 alloys.
The use of 7075 aluminium usually parallels with the use of 2024, but 7075 will remain the first choice when the job requires higher mechanical properties.
7075 Aluminium Basic Properties
- Density = 3.0 g/cm3(190 lb/ft3)
- Excellent machinability. It can be formed in the annealed condition and subsequently heat treated. Because it is one of the aluminium alloys with the greatest strength, the spring back created by it during shaping operations is usually greater. Formability may be enhanced by heating the material to 95-120 °C (200°-250°F) if any complication arises during the shaping process while annealed.
7075-T6 Aluminium Mechanical Properties
- Brinell Hardness = 150
- Elastic (Young’s, Tensile) Modulus = 70 GPa
- Tensile Strength: Ultimate (UTS) = 560 MPa
- Tensile Strength: Yield (Proof) = 480 MPa.
- Elongation at break = 7.9%.
- Fatigue Strength = 160 MPa.
- Poisson’s Ratio = 0.32
- Shear Modulus = 26 GPa.
- Shear Strength = 330 MPa.
7075-T6 Aluminium Thermal Properties
- Melting Onset (Solidus) = 480 °C (890 °F)
- Specific Heat Capacity = 870 J/kg-K (0.21 BTU/lb-°F)
- Thermal Conductivity = 130 W/m-K (75 BTU/h-ft-°F)
- Thermal Expansion = 23 µm/m-K
7075-T6 Aluminium Electrical Properties
- Electrical Conductivity: Equal Volume = 33 % IACS
- Electrical Conductivity: Equal Weight (Specific) = 98 % IACS
Application and Uses
The set of properties that 7075-T6 aluminium offers make it a solid choice for universal use in a variety of industries, while remaining a favourite for the industries ofaerospace, marine, and transportation due to its excellent strength-to-weight ratio. Other very common uses include top-line bicycle components, tool-making, gliders, meter gears, fuse parts, missile parts, worm gears, keys, regulating valve parts, and many other different commercial aircraft, aircraft fittings, and aerospace and defence equipment and components. 7075-T6 is particularly used in many military applications like assault rifle upper and lower receivers, extension tubes, and precision rifles such as M-16s.
Disadvantages of 7075-T6 Aluminium
The 7075 aluminium alloys represent a solid standard for great materials with a very convenient combination of properties for most jobs. However, they do have a few drawbacks that may be important to consider:
- When compared to other aluminium alloys, the 7075 have a lower resistance to corrosion. If an enhanced stress-corrosion cracking resistance is desired, the 7075-T7351 aluminium might be a more suitable selection than the 7075-T6.
- Despite having good machinability, its ductility is still the lowest when compared to other 7000-series alloys.
- Its cost is relatively high, which limits its use.
Conclusion
The 7075-T6 aluminium is the preferred choice for the aerospace, marine, and transportation industries, where low weight and high stress resistance are crucial factors. However, its use is very popular in a variety of other industries, due to its well-balanced set of properties.
FAQs
7075-T6. T6 temper 7075 has an ultimate tensile strength of 510–540 MPa (74,000–78,000 psi) and yield strength of at least 430–480 MPa (63,000–69,000 psi). It has a failure elongation of 5–11%.
What are the properties of 7075-T6 aluminum? ›
7075-T6. T6 temper 7075 has an ultimate tensile strength of 510–540 MPa (74,000–78,000 psi) and yield strength of at least 430–480 MPa (63,000–69,000 psi). It has a failure elongation of 5–11%.
What is the advantage of 7075 T6 Aluminium? ›
The 7075-T6 aluminium is the preferred choice for the aerospace, marine, and transportation industries, where low weight and high stress resistance are crucial factors. However, its use is very popular in a variety of other industries, due to its well-balanced set of properties.
Is 7075-T6 aluminum stronger than steel? ›
7075 wrought aluminum grades have a maximum tensile strength of greater than 572 MPa with a density of 2.8 g/cm3. 304-grade stainless steel, on the other hand, has a tensile strength of 621 MPa and a density of 8 g/cm3. So 7075 aluminum has 90 % of the strength of 304 stainless steel and ~ 1/3 of the weight.
What are the disadvantages of 7075 aluminum? ›
Compared with 6061, one of the biggest disadvantages of 7075 is that its corrosion resistance is general. This is because the copper content of 7075 aluminum alloy is much higher than 6061. Because the copper reacts more with the environment, corrosion is inevitable.
What does T6 mean in aluminum? ›
Here, the T6 temper means that the alloy is solution treated at high temperatures and then artificially aged at a certain temperature (for example, 420–480K) to yield the precipitation hardening of alloys. In contrast to the O temper alloys shown in Fig.
Which is better, 6061 or 7075 aluminum? ›
7075 is notable for its high strength-to-weight ratio and improved strength over 6061. Because of this, 7075 is largely used in aerospace, marine and transportation industries. Any industry where high strength and light weight properties are critical, this alloy is preferred.
Why can't you weld 7075 aluminum? ›
Aluminum alloys of 2024 and 7075 can become susceptible to stress corrosion cracking after welding. This phenomenon is particularly dangerous because it is not detectable immediately after welding. The cracking usually develops later when the component is in service.
What is the difference between 2024 and 7075-T6? ›
The hardness of 7075 T6 aluminum is higher than that of 2024 T3 aluminum (150-200 HB vs. 120-150 HB). Compared with 7075 aluminum alloy, 2024 aluminum alloy has lower strength and toughness, but has better workability and weldability.
What is the alternative to 7075 aluminum? ›
6061 aluminium, on the other hand, has a higher thermal conductivity than 7075 and is better suited for certain applications. Among the heat-treated options, the aluminium plate is more versatile and best known for its corrosion resistance and high toughness.
7068 aluminium alloy is one of the strongest commercially available aluminium alloys, with a tensile strength comparable to that of some steels. This material, also known as an aircraft alloy, is heat treatable.
Can you bend 7075-T6 aluminum? ›
Bending 7075 Aluminium has the potential to be tricky. A member of the 7000 series, it is one of the strongest alloys available and is comparable to many types of steel. The temper also plays a huge role in how difficult it is to achieve the desired bend of your curved aluminium profile extrusion.
What is the toughest aluminum? ›
Grade 7000
Known as the zinc grades – zinc being the largest alloying element, the 7000 series grades are the hardest and strongest commercial grades of aluminium. Grade 7075 is the most common of the 7000 series grades. It is an extremely high strength alloy; the strongest of all commercial grades of aluminium.
What is 7075-T6 aluminum used for? ›
7075 is widely used for construction of aircraft structures, such as wings and fuselages. Its strength and light weight are also desirable in other fields. Rock climbing equipment and bicycle components are commonly made from 7075 aluminium alloy. The bicycle industry is also using 7005 and 6061 aluminium alloys.
What are 2 downfalls while using aluminium? ›
However, aluminum does have some drawbacks, including its low strength and high environmental impact.
Does 7075-T6 aluminum rust? ›
The 7075-T6 alloy corresponding to an Al-Zn T6, is mostly used as structural component in the aviation industry, due to the good relationship between weight and mechanical properties. However, the negative point of this alloys is the resistance to corrosion, which is why they need to be coated with an anodic film.
What is the difference between 7050 T6 and 7075-T6? ›
7 Major Differences Between 7050 Aluminum VS 7075 Aluminum
Compared to 7050 aluminum, 7075 aluminum has higher hardness and strength but performs relatively poorly in terms of machinability and corrosion resistance. 7075 is susceptible to stress corrosion and its toughness decreases with decreasing temperature.
What are the properties of 7075 T7 aluminum? ›
Aluminum 7075-T73; 7075-T735x
| Physical Properties | Metric | English |
|---|
| CTE, linear 250°C | 25.2 µm/m-°C | 14 µin/in-°F |
| Specific Heat Capacity | 0.96 J/g-°C | 0.229 BTU/lb-°F |
| Thermal Conductivity | 155 W/m-K | 1080 BTU-in/hr-ft²-°F |
| Melting Point | 477 - 635 °C | 890 - 1175 °F |
34 more rowsTitanium (Grade 5 Ti 6Al-4V)
6061 does better in welding applications, it's easier to machine, and costs less. The bottom line when machining aluminum: If low weight, high tolerance to heat, and high strength are key, 7075 is the way to go.
