Quantification of the Post-Fire Strength Retention Factors for Selected Standard Duplex and Lean Duplex Stainless Steel Grades

The experimental quantification of retention factors related to the post-fire strength as well as the post-fire ductility of intentionally selected stainless steel grades applied in construction is the objective of the research presented here. These steel grades are characterized by a two-phase aust...

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Veröffentlicht in:	Materials 2024-01, Vol.17 (2), p.371
Hauptverfasser:	Maslak, Mariusz, Pancikiewicz, Krzysztof, Pazdanowski, Michal, Stankiewicz, Marek, Wozniczka, Piotr, Zajdel, Paulina
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Sprache:	eng
Schlagworte:	Analysis Carbon Chromium Cooling Corrosion resistance Ductility Duplex stainless steels Estimates Heating High temperature Mechanical properties Molybdenum Molybdenum steel Nickel molybdenum steels Nitrogen Stainless steel Steel, Stainless
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creator	Maslak, Mariusz Pancikiewicz, Krzysztof Pazdanowski, Michal Stankiewicz, Marek Wozniczka, Piotr Zajdel, Paulina
description	The experimental quantification of retention factors related to the post-fire strength as well as the post-fire ductility of intentionally selected stainless steel grades applied in construction is the objective of the research presented here. These steel grades are characterized by a two-phase austenitic-ferritic microstructure of the duplex type. In this context, two mutually corresponding chromium-nickel-molybdenum steel grades are subjected to analysis, namely steel belonging to the standard duplex group (DSS 22% Cr) and steel belonging to the lean duplex group (LDSS). The similarities and differences in the mechanical properties exhibited by these steel grades after effective cooling, following more or less prolonged simulated fire action conforming to several development scenarios, are identified and indicated. The resistance of a given steel grade to permanent structural changes induced by the heating program proved to be the critical factor determining these properties and resulting in many cases in increased susceptibility to brittle fracture. The results obtained experimentally seem to confirm the quantitative estimates of post-fire retention factors forecast by Molkens and his team, specified for the steels exhibiting a duplex-type structure and tested by us. However, several of these estimates might be considered somewhat risky. Nevertheless, our results do not confirm the significant post-fire strengthening of steel grades belonging to the LDSS group following prior heating at a sufficiently high temperature, as reported earlier by Huang Yuner and B. Young.
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These steel grades are characterized by a two-phase austenitic-ferritic microstructure of the duplex type. In this context, two mutually corresponding chromium-nickel-molybdenum steel grades are subjected to analysis, namely steel belonging to the standard duplex group (DSS 22% Cr) and steel belonging to the lean duplex group (LDSS). The similarities and differences in the mechanical properties exhibited by these steel grades after effective cooling, following more or less prolonged simulated fire action conforming to several development scenarios, are identified and indicated. The resistance of a given steel grade to permanent structural changes induced by the heating program proved to be the critical factor determining these properties and resulting in many cases in increased susceptibility to brittle fracture. 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subjects	Analysis Carbon Chromium Cooling Corrosion resistance Ductility Duplex stainless steels Estimates Heating High temperature Mechanical properties Molybdenum Molybdenum steel Nickel molybdenum steels Nitrogen Stainless steel Steel, Stainless
title	Quantification of the Post-Fire Strength Retention Factors for Selected Standard Duplex and Lean Duplex Stainless Steel Grades
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