Stainless Steel is an extremely versatile metal that is selected by many manufacturers for its broadly desirable characteristics. Contrary to what most people believe, the term “Stainless Steel” doesn’t refer to one particular alloy. Rather, the general term is used to refer to a variety of iron-based alloys comprised of at least 10.5 percent chromium. To enhance the metals’ resistance to corrosion, strength, and other properties additional elements are usually added.
So, what is Stainless Steel? It’s essentially this:
Stainless Steel = Iron + Chromium (> 10.5%) + some other stuff
Elements like molybdenum and nickel are usually included in the alloy to increase its strength, enhance its heat resistance, and improve its manufacturing attributes and formability for deep draw applications. Stainless Steel is a true marvel of technology and has modernized industries like chemical processing, water treatment, transportation, aerospace, and medicine. Its vast benefits make everyday life easier in ways we don’t even think about. The corrosion resistant characteristics of this metal give it its ‘stainless’ moniker and come, in large part, from the chromium content which forms an invisible layer on the alloy surface that protects the metal from corrosion or rusting. This oxide layer is what prevents oxygen from reaching the inner surface.
There are many grades of Stainless Steel, each with its own unique properties that make this family of alloys such a great fit for so many manufacturers.
One of the best characteristics about Stainless Steel is that Stainless Steel is 100% recyclable into the same product, with no reduction in quality.
How Green is Stainless Steel?
There’s a wide range of criteria used to ascertain the environmental impact of Stainless Steel. Here are the key categories:
Corporate Environmental Principles
Anton Metal is committed to environmental stewardship and believes that environmental protection is the responsibility of all employees. As such, Anton Metal commits to conduct its operations in compliance with all applicable laws, regulations, and standards concerning environmental protection and, through the establishment of various plans and policies, provide a mechanism for self-monitoring to ensure continual compliance and improvement.
l Establishment and integration of ecological programs into Company operations and policies.
l Management of raw materials, co-products, wastes, and byproducts in agreement with the
relevant environmental conservation laws.
l Consideration of the impact on the environment when evaluating new technologies,
projects, and manufacturing processes.
l Promoting pollution prevention, natural resource conservation, and the reasonable reuse
and recycling of manufacturing materials.
l Encouragement of development and research on enhanced environmental and
manufacturing technologies and the acquisition and use of recyclable, durable steel products.
l Fostering staff awareness of their role in ensuring proper environmental management in the
Company policies.
l Issuing the appropriate response to client and community information requests.
Environmental Management Systems
The success of environmental management efforts requires commitment from the top. All staff at Anton Metal are aware of their responsibility to ensure a healthy environment. Furthermore, personnel at every level of the organization are committed to ensuring successful environmental management efforts.
Health Impact of Stainless Steel
A past study by the European Confederation of Iron and Steel industries (EUROFER) dubbed Manufacture, Processing and Use of Stainless Steel: A Review of the Health Effects (1999) led to these eye-opening findings:
Stainless Steel alloys have no adverse health effect, hence are not hazardous.
There’s no evidence to prove that steel manufacture affects staff health.
The cutting and grinding of these alloys don’t affect workers’ health.
Welding of these alloys doesn’t present a higher risk of lung cancer than any other steel welding form.
Materials, Water Usage, and Energy
Here’s the environmental impact of Stainless Steel on raw materials, water, and energy consumption.
l Raw material – This comprises recycled Stainless Steel and alloy scrap containing the basic
Stainless Steel elements. The material is 100 percent recyclable. It also doesn’t require surface coatings, which may end up deteriorating and probably pollute the environment.
l Alloying elements – Stainless Steel comprises nickel and chromium, which are mined and
refined under the environmental considerations outlined by the Nickel Development Institute and Chromium Development Association, respectively.
l Energy – The raw materials for Stainless Steel are usually melted using electric furnaces
with advanced computer controls that ensure efficiency in electricity use. Most producers contract with utility companies to level power consumption when there’s a high demand or to rely on off-peak power.
l Slag – This byproduct comes from the melting at the electric furnace. Producers collect it,
then reclaim the metals inside it. The aggregate undergoes production for reuse or to be supplied for other uses like roadbed material.
l Water consumption – During steel manufacturing, water is mainly used for cooling during
non-contact cooling processes. Most producers recycle this water up to 100 times before finally discharging it.
Pollution Prevention
After continuous recycling, the plant water first undergoes treatment before being discharged. Different production levels generate wastewater. All these are treated and reused as many times as possible using advanced filtration and clarification equipment.
Minimization of Wastes
Companies in the Stainless Steel industry are keen on keeping wastes as minimal as possible. At Anton, we collect and segregate any remnant pieces that are usually discarded during manufacturing. All this in-house scrap will be sold to a producing mill or foundry to be melted in the electric furnace. The packaging used mostly comprises steel bands, wrapping paper, or wood cradles. All these can be recycled, hence a significant cut on waste generation.
Recycling
As already mentioned, Stainless Steel is 100% recyclable, and its value still stands even after it has been used as consumer products or capital goods for quite some time. Nearly all products can be fully recycled.
The durability of these products significantly contributes to the minimization of resources. Since there’s no product failure or corrosion, there’s no need to acquire new replacement resources. Across the globe, metal scrap dealers collect this metal, then send it back for melting to produce more Stainless Steel. The metal’s high scrap value and recyclability ensures that it is diverted from landfills and recaptured for use in new Stainless Steel. The quality of recycled stainless is usually the same as the original, and the value never downgrades, as evident in numerous other recycled materials.
Post time: Feb-03-2023