Tech Jargon You Need To Know To Understand Stainless Steel Passivation

Understanding the specialist language associated with stainless steel passivation is crucial for anyone involved in industries in which it is necessary to maintain equipment and hygiene. In this article, we’ll demystify the key terms and concepts involved in stainless steel passivation to help you to get to grips with the complexities of the process.

Passivation

Passivation is a chemical treatment that is applied to metal surfaces, particularly stainless steel, to form a protective oxide layer to prevent corrosion. The process is vital in industries such as food and beverage, pharmaceuticals, and aerospace, in which resistance to rust and durability are critical. By removing free iron and other contaminants from the stainless steel surface, passivation enhances the metal's natural ability to resist corrosion, thereby extending the lifespan of the equipment and ensuring consistent performance.

Rouge

Rouge is a term that describes iron oxide deposits that commonly occur in pharmaceutical facilities, especially in high-purity water and clean-steam systems made from austenitic stainless steel. Rouge is a significant problem as it can lead to contamination of pharmaceutical products, thereby potentially affecting their efficacy or safety. The presence of rouge indicates the need for derouging and passivation to maintain the cleanliness and integrity of stainless steel equipment.

Rouging

Rouging is a general term that refers to the discoloration that appears on stainless steel surfaces due to the formation of iron oxides and hydroxides. Discoloration can range from pale yellow or orange to red, brown, or even dark violet and black. Rouging is not just a cosmetic issue: it is a warning sign of potential corrosion and contamination problems that need to be promptly addressed through derouging and passivation processes. Also, regular maintenance and monitoring are essential to prevent rouging and ensure the longevity and safety of stainless steel equipment in different industries.

Derouging

Derouging refers to the process of removing iron oxide deposits, known as rouge, from stainless steel surfaces. This process is particularly important in the pharmaceutical industry, where cleanliness and contamination prevention are vital. Rouge, which forms on stainless steel components, can lead to contamination and compromise the strict hygiene standards required in pharmaceutical facilities. Derouging ensures that stainless steel surfaces remain clean, safe, and free from contaminants.

Biofilm

A biofilm is a colony of bacteria that forms on surfaces within water systems, such as piping or vessels. These bacterial colonies are protected by a slimy polysaccharide layer that makes them difficult to remove and allows them to thrive. Biofilms pose significant risks in industries that rely on sterile environments, as they can lead to contamination or cause equipment to malfunction. Effective cleaning and passivation are necessary to control biofilm formation and maintain the hygiene of systems.

Pickling

Pickling is a process that removes scale, weld heat-tint, and other impurities from the heat-affected zone (HAZ) of stainless steel surfaces. It is achieved using a combination of acids, for example pickling solution consists of hydrofluoric and nitric acids, that clean and prepare the metal surface for passivation. Pickling is an essential step before passivation because it ensures that the surface is free from contaminants and able to form a protective oxide layer.

ASME BPE

The ASME BPE (Bioprocessing Equipment) standard provides guidelines for the design and construction of equipment used in biopharmaceutical manufacturing. The standard emphasises hygiene, safety, and operational efficiency. Adhering to ASME BPE ensures that equipment meets the stringent requirements for cleanliness. Additionally ASME BPE also has sections specifically focussed on passivation and derouging, which are often specified in preference to ASTM A967.

ASTM A967

ASTM A967 - the ‘Standard Specification for Chemical Passivation Treatments for Stainless Steel Parts’ - outlines industry guidelines for effectively passivating stainless steel components. These guidelines ensure that the stainless steel surfaces achieve optimum corrosion resistance and longevity. ASTM A967 specifies different methods and procedures for passivation, including the use of citric acid and nitric acid treatments, to suit various applications and requirements.

ASTM A380

ASTM A380 outlines best practices for cleaning, descaling, and passivating stainless steel parts and equipment. ASTM A380 ensures that stainless steel components perform optimally and effectively resist corrosion. Adherence to ASTM A380 involves detailed procedures for removing contaminants, preparing surfaces, and applying passivation treatments to enhance the durability and performance of stainless steel equipment.

Need Professional Advice? Speak To Our Experts Today!

If you still can’t separate rouging from derouging or ASTM A967 from ASME BPE, then our experts at INOX Passivation can help. Simply call us today on +44 (0)7397 059595 and a member of our team will be pleased to assist you.

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