Search
Filters
Close

Save 20% on select titles with code HIDDEN24 - Shop The Sale Now

07481 The Influence of Composition upon Surface Degradation and Stress Corrosion Cracking of the Ni-Cr-Mo Alloys in Wet Hydrofluoric Acid

Product Number: 51300-07481-SG
ISBN: 07481 2007 CP
Author: Nacera Sabrina Meck, Paul Crook, and Raul B. Rebak
Publication Date: 2007
$0.00
$20.00
$20.00
At concentrations below 60%, wet hydrofluoric acid (HF) is extremely corrosive to steels, stainless steels and reactive metals, such as titanium, zirconium, and tantalum. In fact, only a few metallic materials will withstand wet HF at temperatures above ambient. Among these are the nickelcopper (Ni-Cu) and nickel-chromium-molybdenum (Ni-Cr-Mo) alloys. Previous work has shown that, even with these materials, there are complicating factors. For example, under certain conditions, internal attack and stress corrosion cracking (SCC) are possible with the Ni-Cr-Mo alloys, and the Ni- Cu materials can suffer intergranular attack when exposed to wet HF vapors. The purpose of this work was to study further the response of the Ni-Cr-Mo alloys to HF, in particular their external corrosion rates, susceptibility to internal attack and susceptibility to HF-induced SCC, as a function of alloy composition. As a side experiment, one of the alloys was tested in two microstructural conditions, i.e. solution annealed (the usual condition for materials of this type) and long-range ordered (this being a means of strengthening the alloy in question). The study of external corrosion rates over wide ranges of concentration and temperature revealed a strong beneficial influence of molybdenum content. However, tungsten, which is used as a partial replacement for molybdenum in some Ni-Cr-Mo alloys, appears to render the alloys more prone to internal attack.
At concentrations below 60%, wet hydrofluoric acid (HF) is extremely corrosive to steels, stainless steels and reactive metals, such as titanium, zirconium, and tantalum. In fact, only a few metallic materials will withstand wet HF at temperatures above ambient. Among these are the nickelcopper (Ni-Cu) and nickel-chromium-molybdenum (Ni-Cr-Mo) alloys. Previous work has shown that, even with these materials, there are complicating factors. For example, under certain conditions, internal attack and stress corrosion cracking (SCC) are possible with the Ni-Cr-Mo alloys, and the Ni- Cu materials can suffer intergranular attack when exposed to wet HF vapors. The purpose of this work was to study further the response of the Ni-Cr-Mo alloys to HF, in particular their external corrosion rates, susceptibility to internal attack and susceptibility to HF-induced SCC, as a function of alloy composition. As a side experiment, one of the alloys was tested in two microstructural conditions, i.e. solution annealed (the usual condition for materials of this type) and long-range ordered (this being a means of strengthening the alloy in question). The study of external corrosion rates over wide ranges of concentration and temperature revealed a strong beneficial influence of molybdenum content. However, tungsten, which is used as a partial replacement for molybdenum in some Ni-Cr-Mo alloys, appears to render the alloys more prone to internal attack.
Product tags
Also Purchased
Picture for 01345 MATERIALS FOR HYDROFLUORIC ACID SERVICE
Available for download

01345 MATERIALS FOR HYDROFLUORIC ACID SERVICE IN THE NEW MILLENNIUM

Product Number: 51300-01345-SG
ISBN: 01345 2001 CP
Author: Herbert S. Jennings
$20.00
Picture for 04229 Performance of CRA in Hydrofluoric Acid
Available for download

04229 Performance of CRA in Hydrofluoric Acid

Product Number: 51300-04229-SG
ISBN: 04229 2004 CP
Author: Guenter Schmitt, Iserlohn University of Applied Science; Michael H.W. Renner, Bayer Technology Servi
$20.00
Picture for 04643 Localized Corrosion of an Alloy 400 Nozzle
Available for download

04643 Localized Corrosion of an Alloy 400 Nozzle in Hydrofluoric Acid Service

Product Number: 51300-04643-SG
ISBN: 04643 2004 CP
Author: Jesus Acosta, Thomas S. Copeland, Padma Kodali, and Gregory Balionis, ExxonMobil
$20.00