For more galvanized steel coil supplierinformation, please contact us. We will provide professional answers.

Home » Hot-Dip Galvanizing (HDG) » What is the Cost of Galvanized Steel?

What is the Cost of Galvanized Steel?

Many specifiers have the perception hot-dip galvanized steel is cost prohibitive on an initial cost basis in comparison to other forms of corrosion protection.  This likely stems from a number of things including the fact galvanizing is viewed as a Cadillac system because of its maintenance-free longevity.  However, due to the relatively stable price of zinc and technology /process efficiencies in the last 20 years, hot-dip galvanizing has steadily become more competitive, and often less expensive, on an initial basis than other corrosion protection systems.

Many other corrosion protection systems, such as paint and powder coatings, have seen cost increases of 100% or more in the past five years.  And to add salt to the wound, these other protective systems require maintenance on a more frequent basis, increasing the life-cycle costs.  Direct maintenance costs for any project are typically 2-5 times the initial cost, and the indirect costs are even worse 5-11 times the direct cost of repair.

Because of the escalating cost of other coating systems and the astronomical costs of maintenance, more specifiers have begun to consider life-cycle costs when selecting their building materials.  Life-cycle cost (LCC) is a more complete analysis because it considers the total cost over the life of the project (initial + maintenance).  Because hot-dip galvanized steel requires no maintenance for 70 years or more in most environments, often the initial cost is the life-cycle cost meaning hot-dip galvanized steel is 2-6 times more economical over the expected life of a project making it a sustainable choice for today and tomorrow. 

Therefore, when specifiers are selecting materials for a given project, it is paramount to consider more than just the initial cost of a protection system. Taking into account the overall service life, expected time to first maintenance, and corresponding economics related to the initial and continued upkeep provides a more accurate prediction of the projects impact on future generations. 

Projects are complex and comprised of different steel sizes and quantities.  Furthermore, location, as well as differently sized kettles, equipment, and other efficiencies within galvanizing plants all affect the cost structure of galvanized steel.  For this reason, your local galvanizer is best suited to assist you with pricing for your specific project.

101 Freeway Overcrossing in Los Angeles uses a duplex system of galvanized steel and a painted stencil pattern to give the spangled look

However, if you are interested in getting an idea of the cost differences initially and over the life cycle of hot-dip galvanized steel and other coating systems, the American Galvanizers Association (AGA) has developed an online Life-Cycle Cost Calculator (LCCC).  The LCCC automates the calculation found in the specification ASTM A and allows you to compare the initial and life-cycle cost of hot-dip galvanizing to 30+ other corrosion protection systems. The Life-Cycle Cost Calculator uses data from a KTA Tator, Inc. survey of paint manufacturers as reported in NACE Paper No C- Expected Service Life and Cost Considerations for Maintenance and New Construction Protective Coating Work () and a nationwide survey of AGA members.

To use the calculator, you input the specific parameters of your project (real or hypothetical) in three quick screens, and then the LCCC will provide a customized, printable comparison of initial and life-cycle costs of galvanizing to your selected corrosion protection system. Alternatively, you can compare a duplex system (hot-dip galvanizing and paint) to paint systems.  Duplex systems require a lot of initial investment, as you are paying for both coatings up front.  However, when evaluated on a life-cycle basis, duplex systems provide huge economic savings because they require less maintenance throughout the life of a project than painted black steel.

Launch the Galvanizing Cost Calculator

Aluminum can be polished to a mirror finish that is lustrous and reflects the full visible spectrum, without color distortion, although there can be a slight blue tint in some cases. Such a finish is not durable, as aluminum oxidizes and returns to a matte gray finish over time. 

What Is Aluminum Used For?

Aluminum is a versatile and widely used metal with a vast array of applications. Its unique combination of properties makes it suitable for many industrial, structural, and product applications. For example, in the transportation sector, aluminum is extensively used in the manufacturing of cars, trucks, airplanes, trains, and even ships. It is used in engine components, body panels, wheels (alloyed with magnesium), and frames. Aluminum is also commonly utilized in the construction industry. Its corrosion resistance, strength, and durability make it a popular choice for building structures, including: roofs, windows, doors, and facades.

What Are Examples of Aluminum?

Aluminum has extensive application across various industries. Some examples of aluminum parts are listed below:

1. Extruded aluminum alloys are used for window and door framing. 
2. Deep-drawn aluminum sheets allow beverage and aerosol cans to be made cost-effectively. 
3. Long-distance and high-voltage conductors rely on aluminum as it has a considerably lower cost than copper for almost the same performance. 
4. Apple and other computer manufacturers use die cast and machined aluminum for PC bodies as it is lightweight and durable.

What Are the Advantages of Aluminum?

Aluminum offers a range of advantages that contribute to its widespread use in most areas of product and human environments. These are:

1. Has a low density compared to many other metals, making it an excellent choice for applications in which weight affects performance or efficiency, such as in transportation. 
2. Has a natural ability to resist corrosion. When exposed to air, it forms an impervious and robust oxide layer on its surface, which acts as a protective barrier against further corrosion.
3. Is an excellent conductor of heat and electricity. It has approximately 60% of the electrical conductivity and 50% of the thermal conductivity of copper, at a fraction of the raw material cost.
4. Aluminum alloys have a higher strength-to-weight ratio than steel, making them suitable for a range of structural applications. The material also retains its ductility in heavy use, allowing for structures that are failure-resistant.
5. These alloys offer great ductility and malleability, with moderate weldability, allowing their use in a wide range of manufacturing processes.
6. Is highly recyclable, and its recycling process requires significantly less energy compared to the production of primary aluminum.

What Are the Disadvantages of Aluminum?

Aluminum has many advantages, but there are also application and performance difficulties that must be accounted for:

1. Is more expensive than steel, its primary material alternative, for several reasons. The high cost of bauxite processing (in terms of energy required to produce aluminum from ore) can limit the economic practicality of its selection.
2. Its thermal conductivity can be a disadvantage in certain applications, as can its higher coefficient of thermal expansion than steel. Temperature distortion and unwanted thermal transfer in building systems can be significant issues that must be handled with careful design.
3. Exposure to sudden temperature changes or extremely high temperatures can cause the metal to become brittle, losing structural strength and durability. Aluminum engine blocks have been known to fail due to designs that failed to compensate for or prevent damaging temperature fluctuations.
4. Has a relatively low melting point compared to other metals, such as steel or copper. This is a disadvantage in all high-temperature applications.
5. Although aluminum is more corrosion-resistant than many other metals, it can still corrode in some environments, requiring: good design, effective maintenance, and protection in certain applications, such as those exposed to seawater.

What Are the Applications of Galvanized Steel and Aluminum?

Many applications can be made from either galvanized steel or aluminum, and both metals have specific properties that make them suitable for certain uses. Galvanized steel is a popular choice for applications that require a durable, rust-resistant material. For example, it is commonly used in the construction of automobiles, roofing, and fences. Walkways and stair surfaces are commonly made from aluminum or galvanized steel treadplate, each of which has particular application advantages.

Aluminum benefits from having a low density and high strength-to-weight ratio, making it particularly useful in transportation industries for structures such as: aircraft, some ships, and railway cars. Low weight can benefit the making of: building components, electrical equipment, and cooking utensils.

For more information, please visit galvanized coil supplier.

Both galvanized steel and aluminum are used extensively in the manufacturing of fan blades. Galvanized aluminum sheet materials are more specifically used in this application due to their lightweight property. However, most HVAC (heating, ventilation, and air conditioning) ducting and fan enclosures are made in galvanized steel sheets for their low cost of materials and high processability.

How To Choose Between Galvanized Steel and Aluminum?

Choosing between galvanized steel and aluminum depends on various factors such as: the nature of the application, budget constraints, and environmental considerations. Material selection must align with a project's primary and secondary requirements, considering factors like: strength, corrosion resistance, weight, budget, and aesthetics. Careful design to compensate for a material's weaknesses or better exploit its strengths can alter the material selection in ways that allow better cost or performance.

Galvanized steel outperforms aluminum in strength and durability, making it ideal for applications that require a tougher and more durable material, such as: structural components, fences, and outdoor equipment. Aluminum, on the other hand, is lighter weight but less strong than equivalent sections/gauges of steel but has a higher strength-to-weight ratio. It is more suitable for projects in which weight is a primary driver, like aerospace or transportation, but may not be as robust in heavy-duty applications.

What Is the Weight of Galvanized Steel?

The weight of a galvanized steel component depends primarily on the steel alloy. In general, the weight variation wrought by the zinc coating is negligible compared with the steel substrate beneath. The density of galvanized steel can vary slightly depending on the specific alloy but it is typically around 0.284 pounds per cubic inch (7.85 grams per cubic centimeter) or 7,850 kilograms per cubic meter.

Which Is More Malleable, Galvanized Steel or Aluminum?

Aluminum has a high malleability, which means it can be easily bent, shaped, or formed into various configurations without losing its structural integrity. Galvanized steel is also malleable to a certain extent, but less so than aluminum.

For applications that require extensive shaping, forming, or intricate designs, aluminum is often the easier-to-process choice. However, extreme forming of steel can be performed hot, allowing for increased complexity of shape as a consequence of accepting the increased complexity of the process.

How Do Galvanized Steel and Aluminum Differ in Thermal Conductivity?

Aluminum thermal conductivity is generally between 205&#;220 W/m·K, while galvanized steel typically has a thermal conductivity of about 50&#;60 W/m·K.

How Much Do Galvanized Steel and Aluminum Cost?

The cost of galvanized steel and aluminum varies widely depending on various factors, including: the type, form, thickness, size, and market conditions.

The cost of galvanized steel can range from $0.50 to $1.50 per pound, depending on the specific grade and form. Aluminum prices can range from $1.50 to $3.00 or more per pound for common aluminum alloys, influenced by grade, form, and market conditions.

For accurate pricing information, it's necessary to contact metal suppliers to get an accurate application/volume-specific price for your needs.

Which Is More Durable, Galvanized Steel or Aluminum?

The relative durability of galvanized steel and aluminum depends heavily on the application and environmental factors.

Galvanized steel is renowned for its durability, particularly in outdoor and (mildly) corrosive environments. It is often used in applications in which long-term durability is a key driver. However, galvanized steel will corrode if the zinc coating is compromised or if it is exposed to unsuitable conditions. Overall, galvanized steel benefits from the properties of steel&#;toughness, ductility, high tensile strength, low fatigue rates, and hardness&#;with the zinc coating compensating for the high environmental susceptibility.

Aluminum is naturally corrosion-resistant due to the formation of a self-healing protective oxide layer on its surface, making it moderately damage-tolerant in terms of corrosion resilience. Aluminum is lightweight making it a suitable choice for applications in which weight and corrosion resistance are essential, such as in: aerospace, marine, and outdoor applications. However, it may not be as strong or durable as galvanized steel in some heavy-duty or high-impact applications. In particular, aluminum is more susceptible to fatigue failures and can become embrittled by stress and temperature fluctuations.

Is Galvanized Steel More Rust-Resistant Than Aluminum?

Yes, galvanized steel is generally more rust-resistant than aluminum in most non-aggressive environments. The zinc coating on galvanized steel serves as a sacrificial barrier. When it gets scratched or damaged, the surrounding zinc corrodes before the underlying steel, providing a measure of ongoing protection.

Aluminum naturally forms a thin oxide layer on its surface, which protects it from corrosion. While aluminum is highly corrosion-resistant and does not rust in the same way that steel does, it can still corrode in certain specific environments, such as highly acidic or alkaline conditions and in places where mineral deposits can collect.

In typical outdoor environments, in which exposure to moisture is common, galvanized steel's rust resistance tends to be superior to the resistance of aluminum to corrosion, but both will perform well and survive long term. The cost then drives the selection of galvanized steel for applications like: fencing, structural components, and outdoor equipment.

In marine environments, aluminum offers some benefit in corrosion performance over galvanized steel, as long-term salt exposure will affect steel considerably more than the self-healing oxide barrier on aluminum, once the zinc begins to erode.

Can Aluminum Be Welded?

Yes, aluminum can be welded by various methods. In all cases, the selection of an appropriate filler material (where a filler is used) can affect weld appearance and strength. In particular, control of heat input is critical for good welding results, as excess heat combined with aluminum&#;s excellent thermal conductivity can cause excessive heat-affected zone (HAZ) development and extensive melting.

Can Aluminum Be Galvanized?

Yes, the hot-dip zinc plating (or electroplating) of aluminum is commonly performed. In general, this is done to enable the zinc to act as a sacrificial anode in the electrochemical process of corrosion, improving the life span of parts and preserving the aesthetic appearance for a longer duration.

Summary

This article presented galvanized steel and aluminum, explained each of them, and discussed their key differences. To learn more about galvanized steel and aluminum, contact an Xometry representative.

Xometry provides a wide range of manufacturing capabilities and other value-added services for all of your prototyping and production needs. Visit our website to learn more or to request a free, no-obligation quote.

Disclaimer

The content appearing on this webpage is for informational purposes only. Xometry makes no representation or warranty of any kind, be it expressed or implied, as to the accuracy, completeness, or validity of the information. Any performance parameters, geometric tolerances, specific design features, quality and types of materials, or processes should not be inferred to represent what will be delivered by third-party suppliers or manufacturers through Xometry&#;s network. Buyers seeking quotes for parts are responsible for defining the specific requirements for those parts. Please refer to our terms and conditions for more information.

If you are looking for more details, kindly visit galvanized steel coil suppliers.