Stainless steel is one of the materials used in construction due to its unique ability to corrosion resistance. Depending on the thickness, these metals are available as sheet and plate.
We follow international norms while producing products made of standard steel.
Given the global outbreak of COVID-19, health is particularly important for health facilities that are at the forefront of the fight against the pandemic.
To limit the spread of COVID-19, health facilities are essential and our health buildings need additional equipment, ventilation equipment, hospital beds, emergency carts and other assistance equipment.
“Although the hospitals are investing in additional gear, we need to think about which materials are more appropriate to deal with the issue.
Medical equipment is made of metals, polymers and other materials. But which is the most efficient in terms of safety and health?
The medical community has reached a single decision: stainless steel.
Stainless steels are iron-based alloys with at least 10.5% chromium and less than 1.2% carbon. Types or grades of stainless steel produced with the ratios of its main components and adding various metals and elements such as:
molybdenum · nickel · titanium · copper · carbon · nitrogen
The stainless steel is actually imported in more than 50 different degrees. Although grades such as the 200th and 400th series are widely used, they all have a quality that gives the metal unique sterilization capabilities.
Stainless steel’s ability to withstand rust and corrosion is its “claim of reputation”.
This feature is due to the use of chromium that creates a chromium oxide coating on the surface when exposed to oxygen.
The film acts as a barrier between steel and surrounding environment. If the film is broken, it can heal itself as long as it has oxygen.
For this reason, stainless steel is a great choice for medical equipment, which often needs to be clean, washed and cleaned.
All this cleaning will probably harm other materials, but this place where the anti-rust really shines! Its chromium oxide coating helps it recover after being damaged by many required cleaning processes in hospital settings.
Compared to other materials used in medical equipment, the unique ability to improve itself, helps to create a level that is especially easy to clean.
Ceramics, plastics, and polymers, for example, are vulnerable to microfractures, teeth, and scratches that can host bacteria and other microorganisms.
These small incisions are often seen as unarmed eyes, making it very difficult to clean.
In contrast, stainless steel is very durable and crack-resistant, grating and scratch-resistant.
Its natural layer protects the metal and reduces the amount of maintenance needed.
Given all of this, it is easy to understand why other materials cannot use stainless steel as a king of durability and cleanliness.
It is easy to understand why stainless steel is so popular in medical applications. Not only is it very durable, it is also a simple material to achieve, because it is fast-cutting, welded, and shaped, and at the same time added extra power.
Stainless steel is also more than other material and will not scratch or hit over time.
As a result, stainless steel is a good investment that provides years of easy cleaning and cheap maintenance.
Stainless steel is also high temperature resistant, which means that under mechanical stress in high temperature conditions, unlike many other materials will not bend or break.
Stainless steel choose excellent material for tool carts because of durability and ability to withstand heavy loads while maintaining overall weight is low.
In addition, health concerns of the great importance for tool carts used in sanitary facilities and stainless steel offer an ideal level for delivery of equipment which is both safe and easy to clean.
A prominent picture of durability of stainless steel is provided by Lakexide 444 Utility Cart, which weighs only 68 pounds, but has the ability to support 500 pounds despite its low weight.
These types of functional carts offer the best durability and value, as they exceed a similar cart made of aluminum alloy or other alloy.
stainless steel plate construction
One of the basic components of structure is stainless steel plates that will be used in its construction.
Stainless steel, due to its excellent corrosion resistance, high strength and attractive look, is used in many applications in the industry and consumer markets.
In reality, the word “stainless steel” refers to a umbrella category that includes different subcategories of steel.
Stainless steel, like any other type of steel, is in a two-stage production process, mainly composed of iron and carbon.
Chromium (Cr) and other alloying elements such as nickel (Ni) are added to stainless steel to produce a corrosion resistant product. This is what separates stainless steel from other metals.
In addition to chromium, stainless steel is produced with silicon, nickel, carbon, nitrogen and manganese alloys.
Stainless steel are highly corrosion resistant. For example, nitrogen has the ability to improve tensile properties such as formability.
To make a more flexible austenitic steel, nickel is sometimes added to the mixture.
Since these alloys have been added in a wide range of proportions and configurations to produce stainless steel which is suitable for special applications, it is essential that stainless steel manufacturers check that the proper values of each alloy are included in the final product.
The vital role of chromium in the production of stainless steel
Chromium is absolutely essential for producing stainless steel; In fact, there is no alternative that can work.
The ability of stainless steel to withstand corrosion due to the presence of chromium is a translational element which is both hard and corrosion-resistant.
In general, the corrosion resistance of steel increases with respect to the amount of chromium in it.
The first step in forming stainless steel for casting is its initial shape for cooling and working molten steel after production.
The finished product will also determine the special shape and exact measurement.
Typical shapes are:
Blocks, billets, slabs, bars and pipes then each ID used to hold the handle during the move through the next operation.
After this point, the stages will change according to the target grade and the product or final performance that will be used.
Pages, tape, and sheets can be cut from sheets. The plugs and plugs will eventually be converted into rods and cables.
A steel may use these methods several times to achieve the desired appearance or quality, but this depends on the degree and format that the customer order.
The two most common grades in austenitic stainless steel 304 and 316 are. If you read the entire article, you will see the distinction between grades 304 and 316 of stainless steel.