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Everything You Need To Know To Find The Best incoloy wire cloth

13 May.,2024

Inconel vs Stainless Steel Wire Mesh

There are many ways in which you can customize woven wire mesh. From the wire diameter to the form they take on, the possibilities of woven wire mesh are limited to your imagination.

For more incoloy wire clothinformation, please contact us. We will provide professional answers.

But when it comes to how your wire mesh will perform over time in a specific application, the alloy you use means everything. While stainless steel stands as one of the most widely used materials when weaving wire mesh, it's not always the right choice.

For this reason, you must explore specialty wire mesh alloys, such as Inconel.

W.S. Tyler believes you deserve peace of mind about your woven wire products. This is why we strive to share the experiences we've had over the past 150 years and educate customers like you on what they need to achieve accurate results.

With that, we wrote the following article to help you better understand the differences between Inconel and stainless steel so you can design the best possible solution. You will learn:

How the wire mesh industry defines Inconel
The benefits associated with Inconel wire mesh
How the wire mesh industry defines stainless steel
The benefits associated with stainless steel
Which alloy makes sense for you

What Is Inconel?

Inconel is a wire mesh alloy that is considered an austenitic-nickel-chromium super alloy and is a trademark of the special metals corporation. At its core, Inconel is made up of nickel (76%), chromium (15.8%), and iron (7.2%).

Why Use Inconel Wire Mesh?

Inconel is categorized as a heat-resistant alloy; thus, it is typically reserved for applications that subject wire mesh to temperatures reaching 1800°F. This is particularly beneficial as more widely used alloys, such as various steels, tend to lose their corrosion-resistant and durable characteristics when applied to high temperatures.

To that end, Inconel also features adequate corrosion resistance. The inclusion of chromium allows Inconel to combat corrosion from chloride.

What Is Stainless Steel?

Stainless steel is a wire mesh steel alloy that consists of a specific amount of carbon. It also contains traces of chromium which must be added when the steel is in a molten state, as it does not naturally exist in steel.

Created in the early 1900s, the properties of stainless steel have been scientifically calculated. On top of its many versatile qualities, this is why it is one of the most widely used alloys in the wire mesh industry.

That said, wire mesh is typically woven from a 300- or 400-series stainless steel.

300 Series Stainless Steel:

400 Series Stainless Steel:

Why Use Stainless Steel Wire Mesh?

Much like Inconel, the inclusion of chromium allows stainless steel to provide desirable corrosion-resistant qualities. This is particularly beneficial when your wire mesh will come into contact with industrial alkaline and acidic substances.

Stainless steel also provides the heat resistance needed to withstand applications up to 1600°F. It does so while maintaining peak performance and combating oxidation.

Wire mesh woven from 300 series or 400 series stainless steel also affords a versatile level of durability. Whether screening abrasive sediments or applying high-impact brute force, stainless steel wire mesh will perform in most applications.

What Alloy Should I Use?

First and foremost, you must consider the cost when weighing the pros and cons to determine what materials can fit your budgetary restrictions. Having said that, Inconel has a substantially higher price tag than stainless steel.

Now, in terms of performance, Inconel carries superior corrosion resistance and overall strength. But its strength is only better than stainless steel when the mesh is subjected to extreme heat.

At more tolerable temperatures, stainless steel wire mesh will provide more desirable strength.

So if you are applying your wire mesh to a high-heat environment, such as a jet engine, Inconel will be the ideal option. But if you are seeking a wire mesh solution that provides desirable durability at moderate temperatures, stainless steel is the better option in terms of performance and cost-effectiveness.

Deliver Accurate and Optimal Flowrate With the Right Weave

Inconel is a specialty wire mesh alloy that provides corrosion and heat resistance to withstand industrial applications that reach temperatures of 1800°F. Stainless steel, on the other hand, provides slightly less heat resistant qualities but is more feasible for more moderate temperatures no higher than 1600°F.

Once you determine an alloy that is right for you, your next step would be to determine what weave pattern you will implement. This will play a critical role in how well your mesh screens/filters unwanted matter and an even more significant role in the flow rate throughout your process.

W.S. Tyler has been a proud leader of the wire mesh industry for over 150 years and wants to help you gain confidence in the wire mesh you use so you can pass on its value to the products you supply your customers.

Read the article below to find out more about the various weave patterns you can use and get a better idea of what makes sense:

Which Metal Should I Get Wire Cloth Made From?

The wire cloth you choose for experiments or production can lead to innovation and enhanced product quality, giving your company a sustainable competitive advantage. Your specifications along with your customer requirements dictate the materials to use. Proper selection of wire cloth can make a big difference in the cost and efficiency of the system. Fortunately, Newark Wire Cloth offers a wide range of materials, allowing you to optimize your processes and support your business objectives.

Steel

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Steel is the standard material used for wire cloth, and Newark Wire offers a multitude of options. For example, 304 SS is a common type of stainless steel used for wire cloth products and is effective for testing applications or 24/7 continuous production. This material is known for its resistance to corrosion and oxidation. If you have harsh operating conditions that include salt water, 304 SS is designed to deliver results. It is also an alloy containing approximately 18 percent chromium and 8 percent nickel.

Depending on the service, steel may be galvanized, tinned, plated, painted or coated.

Hastelloy

If you’re looking for an alloy that works well in chemicals production and testing, then Hastelloy is an ideal choice. Similar to steel, this material is also resistant to corrosion and comes in different variations that each have advantages and disadvantages.

Titanium

Although titanium is typically used as an alloy and mixed with other metals, it has properties such as durability that make it ideal for wire cloth. It is less dense than steel and can withstand extreme temperatures. It’s ideal for the aerospace industry or in military applications, because of its light weight and versatility. In particular, titanium is resistant to seawater and the corrosion associated with wet environments.

Other Materials

Other metal wire cloth, such as Inconel, Copper, Gold, Silver, Bronze, Tungsten, Molybdenum, Phosphor Bronze, Aluminum, Monel and nickel wire cloth have applications that can improve your operations. Newark Wire representatives are available to answer questions and offer suggestions, based on their experience and your requirements. If a material is not in stock, reps will work with you to source the metal or find a suitable substitute. If you are not sure what metals work best in your situation, you can count on sound guidance.

We offer a wide array of materials for your wire cloth needs. For more details on metals and alloys, please see our wire cloth page here.

Kinds of Weaves

Like ordinary fabrics, wire cloth is produced on looms in a wide variety of weaves. It is made out of practically every gauge of wire, and in innumerable combinations of wire diameter and mesh size for the same sizing ability. For more detailed look on wire cloth weaves, check out our Guide to Wire Cloth Weaves!

Corrosion Resistance vs Cost

When using wire cloth for pollution control, the engineer must select the alloy least susceptible to environmental hazards. In working with water, the stainless steels are most commonly employed since they have the greatest range of corrosion resistance at a practical cost. Certain concentrations of contaminants in liquids may require use of a more exotic material. The table below indicates normal resistance of common wire cloth materials to various contaminants.

Corrosion Resistance of Metals

An important point to remember in reviewing corrosion resistance requirements is that wire cloth by nature is susceptible to corrosion. Instead of attacking one surface, corrosive action will take place all around the wire, so that a corrosion rate which might be considered negligible for metal plate might be excessive for wire cloth. For this reason, it is usually wise to choose material of the highest corrosion resistance consistent with the economics of the application.

Electrolytic Corrosion

In other applications, particularly in filtering or screening seawater, galvanic or electrolytic corrosion will be a consideration in selection of wire cloth material to suit other components of the system. Metals close to each other in the electrolytic galvanic series are less severely affected, and materials are usually chosen so that the more active material forms the major component. The table below gives the galvanic series of metals and alloys in seawater.

Galvanic Series of Metals and Alloys in Sea Water

Physical Strength of Wire Cloth

A major value of wire cloth is its excellent physical strength with relatively lightweight. Actual weight, of course, is based on the specific metal, the diameter of the wire, and the mesh of the cloth. Used as a structural member, wire cloth provides support without impeding flow and without excessive weight. Used as a screen, it resists abrasion, can be cleaned with high-velocity water or chemical cleaners, mechanically scraped or rapped, and even, in some cases, have ice pounded off with a hammer, with little chance of damage. Equally important for applications such as spark arresters, petrochemical pressure filtration, etc., is the high-temperature strength of wire cloth. See the table below for a detailed look at maximum operating temperatures.

Maximum Operating Temperatures of High Temperature Metals

Summary of takeaways:

Newark Wire offers a wide spectrum of materials to choose from in relation to wire cloth, including the 300 series of stainless steel.
Stainless steel is resistant to corrosion, strong and can withstand high temperatures.
Hastelloy is used throughout chemical manufacturing facilities because its resistant to certain acids and salt water.
Titanium is as strong as steel but weighs less and has applications in the aerospace and military industries.
Newark Wire reps are available to answer materials questions and place orders for specialty materials.

Your wire cloth needs the strength to withstand the rigors of testing or production, without negatively impacting product quality. Newark Wire offers standard steel materials, or more specialized compounds, depending on your requirements. For additional information regarding wire mesh cloth and available materials, please contact the Newark Wire Cloth today.

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