Wood vs Aluminum: How Aluminum Panels Reduce Installation Time

Aluminum panels are becoming an increasingly popular choice for projects because of their many benefits. If you are building or updating a space, aluminum panels can save you time, which can help you build more efficiently. Let’s explore the advantages of aluminum panels that make them a productive solution, from their simplified installation process to their compatibility across a broad spectrum of applications.  

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Advantages of Aluminum Over Wood

Aluminum is considered a lifetime product. Unlike wood, which can be vulnerable to rot and decay over time, aluminum is a durable and long-lasting material. 

This makes aluminum panels an ideal choice for building applications where longevity is crucial. In harsh outdoor environments, aluminum panels will continue to perform without losing their properties or structural stability. Aluminum also is resistant to corrosion. 

Aluminum panels can save 15-20% of installation time versus wood materials because of their flexibility, lightweight profile, and interlocking clip systems. Additionally, aluminum’s stability means builders won’t have to deal with common wood-related issues like warping, twisting, or expansion that can complicate the installation process.  

Energy Efficiency & LEED Compliance

For builders focused on maximizing energy efficiency, aluminum offers clear advantages over wood materials. By using aluminum panels, you can offer buyers a cost-effective, energy-efficient solution that is built to last.  

Because of its recyclability and resilience, powder-coated aluminum is considered a sustainable choice when it comes to building and construction. When working on LEED-certified buildings, Parallel products can contribute toward credits. Aluminum has a melting point of 1,200 degrees Fahrenheit and doesn’t ignite easily. Aluminum alloys and pure aluminum have passed tests to be classified as non-combustible, another eco-friendly attribute. 

Learn more about aluminums sustainable properties. 

How Parallel’s Aluminum Panels Simplify Installation

Efficiency in the installation process can alter a project’s timeline and budget. Parallel’s innovative aluminum panel systems infuse flexibility and simplicity into traditional installation methods.  

Interlocking Clip Systems

Unlike traditional wood installation methods that require measuring, cutting, and fastening, Parallel aluminum panels have interlocking systems that allow panels to seamlessly lock together. This eliminates installation errors and reduces labor time.  

Another benefit of the interlocking systems is that the clips ensure consistent spacing and proper alignment while accommodating thermal expansion and contraction. This installation method also minimizes the need for specialized tools, making it a cost-effective solution that doesn’t compromise on quality or durability.  

Installation Flexibility

Parallel’s innovative aluminum panel design represents a significant advancement in installation flexibility compared to traditional aluminum panels, as well. Typical aluminum panel systems often use a tongue-and-groove installation method, which requires builders to work only from the bottom up. This approach can be time-consuming and challenging, especially when working around obstacles or modifications to existing installations.  

Parallel’s interlocking system allows for both bottom-up and top-down installations. Builders can change their installation methods based on the needs of each project, making it easier to work around windows, doors, etc. 

This versatility is useful for repairs or changes to existing installations, as you can easily remove and replace the panels from either side; there’s no need to take out all the surrounding panels.  

Lightweight

Parallel’s panels provide the optimal balance between weight and strength. Their lightweight profile allows for easier handling and faster installation; one installer can manage the panels safely and easily, reducing the need for extra workers and special lifting tools. Less weight also can help reduce transportation costs. 

There is more packaging on aluminum panels than wood for additional protection. Builders will need to remove the protective coat before they begin the installation. 

Choose Parallel’s Aluminum Solutions for Your Next Project

Parallel aluminum profiles can do anything that wood can do, and so much more. Plus, our powder-coated aluminum systems won’t warp, crack, or fade, and are created especially for simple installation. When you choose Parallel, your commercial or residential project uses the highest-quality aluminum.  

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Aluminum alloys are often the metal of choice for aerospace components designed by engineers due to its high-strength and corrosion resistance properties. In comparison to steel, it is a lightweight metal that carries enough strength to serve as the ideal option in many aerospace applications. At Howard Precision Metals, we have your aluminum aerospace needs covered with a selection of alloys that are tailored to aerospace applications, including those for commercial, private, and military aircraft. As you read on, we discuss the variety of Aluminum Alloys typically used, but in many critical components there is additional testing of the aluminum that is required to insure against failure, such as ultrasonic testing.

Aluminum in Aircraft

The vast majority of the airframe of modern aircraft is made from aluminum in terms of weight. For instance, aluminum is the preferred material option for wing, fuselage and supporting structures of military transport/cargo aircraft and commercial airliners. U.S. Navy aircraft use structural components made from fabricated wrought aluminum. Aluminum casting technology is a major focus now, with this technology able to create intricate shapes and achieve innovative designs, which keeps manufacturing costs to a minimum.

Aluminum in Spacecraft

Since the first aircraft was launched into space, aluminum has been a prominent material used for space structures. It is ideal because of its light weight and its capability to handle the powerful loads and stresses that occur during the launch and operation of spacecraft. Aluminum has been used extensively on many of the famous space missions in history, including those involving Apollo, Skylab, the International Space Station, and the Space Shuttles. Aluminum alloys perform exceptionally compared to many other metals in terms of dampening, minimizing weight, thermal management, and mechanical stability.

Aluminum Grades for Aerospace Applications

The aluminum grade you choose will depend on your specific aerospace application. Machinability and corrosion resistance are some of the key factors to consider when evaluating aluminum alloys for aerospace applications.

Alloy – A beneficial alloy choice for framework due to its strength and machinability. However, it does not provide the level of corrosion resistance other aluminum grades do. Therefore, it should not be used in environments with high corrosive environments or environmental stressors.

Alloy – Aluminum alloy is used extensively for aerospace and aircraft components. It possesses high tensile strength, is treatable, and stress resistant. It can also be heat treated. Aluminum plate and sheet are ideal for aerospace applications involving structures, aircraft wings, and repairs.

Alloy – This alloy possesses good weldability and corrosion resistance. It is not heat treatable but is one of the more common aluminum alloys used for aircraft and aviation applications.

Alloy – As another aluminum alloy not suitable for heat treatment, does have a high fatigue strength compared to other aluminum alloys. It possesses good formability and corrosion resistance properties and is used commonly for fuel tanks in aircraft.

Alloy – Aluminum alloy may be welded and brazed. It is a workable alloy with superb corrosion resistance. It is commonly used in the fuselage and wings.

Alloy – This alloy is an excellent choice for architectural structures and anodizing requirements. High corrosion resistance and high tensile properties are some of the features of this alloy. It is an alloy often used for aesthetic purposes.

Alloy – aluminum alloy is a great option for military aircraft and wing skins. This alloy may be reheated and is applicable for military aircraft and wing skins. It possesses a superb strength-to-weight ratio.

Alloy – Used extensively for aircraft applications, this alloy is one of the strongest available aluminum alloys for aerospace applications. It is a popular alloy grade for applications that involve exposure to high level environmental stressors. It possesses a high level of strength and corrosion resistance.

Alloy – Aluminum alloy has average corrosion resistance and high fatigue resistance. It compares to the strength of steel due to the high level of zinc in its composition. It is ideal for highly stressed parts such as fuselages.

Benefits of Aluminum for Aerospace Applications

Due to its high strength-to-weight ratio and other excellent properties, aluminum has been the preferred metal choice for aerospace projects. The various additional benefits afforded by aluminum includes:

• Highly formable, enabling easy fabrication of small aerospace components
• Durable under highly stressed condition, and pressure and temperature extremes
• Cost-effective compared to other metals due to its lightweight properties.
• High electrical conductivity

Aluminum Products Commonly Used for Aerospace Components

The types of aluminum products frequently used in aerospace parts include aluminum plate, sheet, and bar. Other products include aluminum pipe, tube, and other shapes. The versatility of aluminum alloys in the aerospace industry allows for its use in the construction of less costly and more reliable aircraft.

From now on, when you hear the term aerospace aluminum, remember that some of the key properties of this type of aluminum are its resistance to corrosion, light weight, and strength. These properties are vital for the safety and efficiency of aerospace vehicles.

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