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5 Things You Need to Know About Food-Grade Stainless ...

06 Jan.,2025

5 Things You Need to Know About Food-Grade Stainless ...

For sanitary food handling applications, stainless steel is a popular material choice. Not only can food-grade stainless steel stand up to punishing temperatures that would melt plastic, the material&#;s protective oxide layer helps prevent the formation of rust that could contaminate foodstuffs.

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But, as with any material, there are a few things that you should know about food-grade stainless steel before you implement it in your production process.

1: The Steel&#;s Finish Can Affect its Suitability for Food Processing

Stainless steel is famous for being able to resist corrosion, but just because the surface of the steel looks shiny and smooth doesn&#;t mean that it&#;s food-grade.

To meet key sanitary standards, the finish of the steel MUST eliminate any surfaces that could result in bacterial growth while being easy to clean/sanitize.

Here, processes such as electropolishing are favored over manually grinding down surfaces. The reason for this is that electropolishing strips away the surface layer of steel to reveal a microscopically-smooth substrate.

This not only enhances the strength of the oxide layer in stainless steel; it removes the microscopic flaws in a surface that could harbor bacteria.

Learn how passivation and electropolishing can protect your custom food-grade metal forms!

2: Stainless Steel Should NEVER Be Cleaned with a Plain Steel Brush

Steel wire brushes are a popular choice for cleaning deep-set stains from metal surfaces. However, such brushes should NEVER be used to clean a stainless steel object.

Particles from the plain steel in the brush could become imbedded in the surface of the stainless steel, compromising the integrity of the protective oxide layer. Over time, this will allow the &#;stainless&#; steel to rust like ordinary steel.

Additionally, you should avoid using the same tools to clean both stainless and ordinary steels. Particles picked up from the plain steel could transfer to the stainless.

3: Not All Food-Grade Stainless Steel Alloys Are Created Equal

Just because a steel alloy is marketed as being &#;food grade&#; doesn&#;t mean it&#;s the right material for your production process.

There are a number of different stainless steel alloys on the market, each with its own strengths and weaknesses when it comes to resisting specific chemicals and production environments.

For example, salt is known for being exceptionally corrosive to metal compounds. While grade 304 stainless steel is resistant to most corrosives, prolonged exposure to salt can still eat away at it. So, grade 304 stainless wouldn&#;t be suitable for any process requiring repeated, prolonged exposure to salt or saltwater.

Grade 316 stainless, on the other hand, is much more resistant to salt exposure than grade 304. This makes grade 316 stainless steel preferable for food makers that use salt or saltwater in their products.

4: Temperature Extremes CAN Affect Food-Grade Stainless Steel

Most stainless steels have a melting point well outside of the temperature ranges typically employed in any food manufacturing process. However, it is still important to be careful of temperature extremes in your manufacturing process when selecting a food-grade stainless steel (and any potential coatings for it).

For example, most formulations of stainless steel are fine at temperatures ranging from the freezing point of water to oven-like temperatures in excess of 500ºF. However, according to Gasparini Industries, truly cryogenic conditions below -49ºF can cause many stainless steel alloys to become brittle. This, combined with crystalline expansion as metals heat up, can cause these metals to warp or break if exposed to sudden extreme temperature shifts.

Among stainless steels, martensitic stainless steels tend to handle extremely low temperatures the best. This is because the structure of martensitic stainless steel is less susceptible to becoming brittle when exposed to low temperatures.

Additionally, it's important to consider the risk of oxidation when using a food-grade stainless steel alloy in high temperatures. For such applications, grade 304 stainless steel is often useful because of its ability to resist oxidation at temperatures of up to 1,697ºF. This is well over the limit of virtually any food manufacturing process (outside of sterilizing baskets between uses).

5: Welding Can Alter the Properties of Stainless Steel Alloys

The heat stress applied during some welding processes (as well as the use of dissimilar filler materials) can strip the protective oxide layer that gives food-grade stainless steel alloys their resistance to corrosion. This, in turn, can make metal forms that have been welded improperly start to corrode faster than they should.

This is why Marlin's engineers use a resistance welding method applied via a high-precision medium frequency direct current (MFDC) machine. Because the machine can accurately complete welds without excess heat or filler material, the risk of altering the protective oxide layer of the steel being welded is minimized.

Getting to know the strengths and weaknesses of stainless steel prior to implementing it in your food production process is critical for ensuring safety, sanitation, and efficiency. Learn more about stainless steel from the experts at Marlin Steel today!

Are you interested in learning more about high-quality acid resistant glass steel storage tank? Contact us today to secure an expert consultation!

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A Guide to Stainless Steel Grades for Water Tanks

When it comes to selecting the appropriate material for water tanks, stainless steel stands out for its durability and resistance to corrosion. However, not all stainless steel is created equal. Different grades of stainless steel offer varying properties and are suited for specific applications. Understanding these grades can help in choosing the right type of stainless steel for water tanks, ensuring optimal performance and longevity. Here&#;s a closer look at the different grades of stainless steel commonly used in water tanks and their specific uses.

Overview: Grade 304 is the most commonly used stainless steel grade. It belongs to the 300 series of stainless steel and is known for its excellent corrosion resistance and high formability.

Composition: It contains 18% chromium and 8% nickel, which contribute to its resistance to oxidation and corrosion.

Uses in Water Tanks: Due to its robust properties, Grade 304 stainless steel is often used in residential and commercial water tanks. It is suitable for environments where the water is not excessively acidic or alkaline. Its resistance to rust and stain makes it a popular choice for many water storage applications.

Advantages:

1. Good resistance to a wide range of chemicals.
2. Highly durable and resistant to rust.
3. Ideal for environments with moderate temperatures.

Overview: Stainless steel 316 grade is known for its superior resistance to corrosion, particularly in chloride environments. It is also part of the 300 series but includes molybdenum, which enhances its corrosion resistance.

Composition: This grade contains 16% chromium, 10% nickel, and 2% molybdenum.

Uses in Water Tanks: Grade 316 is often used in water tanks exposed to harsh conditions or high salinity environments, such as coastal areas or industrial applications. It is particularly useful where the water may be more corrosive, such as in marine or chemical environments.

Advantages:

1. Excellent resistance to pitting and crevice corrosion.
2. Superior performance in marine and chloride environments.
3. Maintains integrity under high-temperature conditions.

Overview: Grade 430 is a ferritic stainless steel, which means it has a different microstructure compared to the austenitic grades like 304 and 316. It is known for its resistance to oxidation and good formability.

Composition: It contains 16-18% chromium and minimal nickel, making it less resistant to corrosion compared to the 300 series grades.

Uses in Water Tanks: This grade is less commonly used for water tanks compared to Grades 304 and 316 but may be chosen for applications where cost is a major consideration, and the water quality does not pose a significant risk of corrosion.

Advantages:

1. Cost-effective compared to austenitic grades.
2. Good resistance to atmospheric corrosion and oxidation.
3. Suitable for less demanding water storage applications.

Overview: Grade is a duplex stainless steel, which combines the properties of both austenitic and ferritic stainless steels. It is known for its high strength and resistance to corrosion.

Composition: It includes 22% chromium, 5% nickel, and 3% molybdenum.

Uses in Water Tanks: This grade is used in highly corrosive environments or in cases where higher strength is required. It is particularly useful in large-scale industrial applications where both corrosion resistance and mechanical strength are critical.

Advantages:

1. High strength and durability.
2. Excellent resistance to stress corrosion cracking.
3. Suitable for very demanding environments.

Choosing the best grade of stainless steel tanks involves considering factors such as the environmental conditions, water quality, and the specific requirements of the application. Grades 304 and 316 are commonly used for their excellent corrosion resistance and durability, while Grade 430 is more cost-effective for less demanding applications. For extreme conditions, Grade duplex stainless steel offers superior strength and resistance. By understanding the distinct properties of each grade, one can make an informed decision that ensures long-lasting and reliable water storage solutions.

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