Which materials are subject to chloride stress corrosion cracking?

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Study for the API 570 Piping Inspector Test. Prepare with flashcards and multiple choice questions, each question comes with hints and explanations. Get ready for your exam!

Multiple Choice

Which materials are subject to chloride stress corrosion cracking?

Explanation:
Chloride stress corrosion cracking occurs when a material that is susceptible to SCC is placed in a chloride-containing environment under tensile stress. The 300-series stainless steels are austenitic steels that rely on a protective chromium oxide film, but chloride ions can break down that film, especially when the metal is stressed or sensitized by heat, allowing cracks to initiate and propagate along grain boundaries or through the metal lattice. This makes 300-series stainless steels the classic example of materials prone to chloride SCC, particularly in seawater or brine environments and at elevated temperatures. Copper alloys, aluminum, and mild steel are less prone to this specific failure mode under typical exposure conditions. Copper alloys form protective surfaces and resist chloride SCC well; aluminum can suffer localized corrosion in chlorides and may experience other attack mechanisms, and mild steel tends to corrode or pit rather than undergo the classic chloride SCC behavior seen in austenitic stainless steels.

Chloride stress corrosion cracking occurs when a material that is susceptible to SCC is placed in a chloride-containing environment under tensile stress. The 300-series stainless steels are austenitic steels that rely on a protective chromium oxide film, but chloride ions can break down that film, especially when the metal is stressed or sensitized by heat, allowing cracks to initiate and propagate along grain boundaries or through the metal lattice. This makes 300-series stainless steels the classic example of materials prone to chloride SCC, particularly in seawater or brine environments and at elevated temperatures.

Copper alloys, aluminum, and mild steel are less prone to this specific failure mode under typical exposure conditions. Copper alloys form protective surfaces and resist chloride SCC well; aluminum can suffer localized corrosion in chlorides and may experience other attack mechanisms, and mild steel tends to corrode or pit rather than undergo the classic chloride SCC behavior seen in austenitic stainless steels.

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