Among the applications for protic ionic liquids (PILs), lubrication is one of the newest and the most promising. In this work, ammonium-based protic ionic liquids were tested as lubricant fluids for aluminum-steel contacts. PILs were synthesized with 2-hydroxyethylamine (2HEA) and a carboxylic acid (formic and pentanoic), aiming to understand the effect of two different anion chain lengths on the lubricant behavior. The synthesized PILs were characterized by RMN, FTIR and TGA. Wear tests, conducted using a ball-on-plate configuration, showed that the increase of the anion carbon chain length in the PIL structure reduced significantly the coefficient of friction value. Besides, after the wear tests, the PILs structural integrity was not affected. In the same way, bending under tension (BUT) tests evidenced that the performance for stamping conditions of the PIL with the longest anion carbon chain was similar to that of the commercial lubricant. Since, both formed a uniform tribofilm, developed the same lubrication regime and the drawing forces values were close and constant. Hence, the ionic liquid obtained with 2HEA and pentanoic acid (2HEAPe) is as suitable as the commercial lubricant for metal forming processes.
DIN 1.4110 martensitic stainless steel is largely used in the cutlery industry due to its high corrosion resistance associated with high mechanical resistance. However, when this material works under corrosion and wear conditions at the same time, their synergistic effect can accelerate the degradation process of the alloy. Cryogenic heat treatments have been proposed to improve the dimensional stability and mechanical properties, since they minimize the amount of retained austenite. The aim of this work is to study the effect of deep cryogenic heat treatment at -80 ºC and at -196 ºC on the corrosion resistance and tribocorrosion behavior of DIN 1.4110 martensitic stainless steel. The microstructure, hardness, corrosion resistance and tribocorrosion behavior were evaluated. Although the heat-treated samples presented higher hardness and lower corrosion current density (i corr ) compared to samples in spheroidized condition, their material removal under tribocorrosion conditions increased, which demonstrated the synergy between corrosion and wear.
Some studies have related damages in duplex stainless steel (DSS) structures due to stress corrosion cracking (SCC), however, different mechanisms are observed depending of the electrolyte, temperature, electrochemical potential and steel composition. Wherefore, the SCC mechanisms of the AISI 318 DSS in a 115 000 ppm of chloride solution at 25 and 70°C were investigated. The results showed that the SCC cracks propagated in both phases, ferrite and austenite. A reduction in elongation was observed at anodic potentials caused by electrochemical dissolution and at cathodic potentials below −650 mVECS at 70°C and −750 mVECS at 25°C related to SCC mechanism. Accordingly, the more susceptible and protective potentials were determined for DSS in both temperatures.
ResumoAs superligas de níquel apresentam boa combinação de resistência à corrosão e à oxidação, resistência mecânica, resistência à fadiga e à fluência, além de conseguirem operar em temperaturas elevadas, mantendo tais propriedades. A liga Inconel 625 vem sendo estudada como revestimentos, obtidos por cladeamento ou aspersão térmica, para tubos de aços ao carbono utilizados nas indústrias de petróleo e gás. Esses tubos poderão ser unidos pela técnica de soldagem, quando então se obtém uma junta Inconel-Inconel, e isso pode acarretar modificações nas propriedades dessas superligas. O presente trabalho objetiva obter uma junta soldada da liga Inconel 625 empregandose o processo de soldagem a arco utilizando eletrodo revestido Ni-Cr-Mo 3 e caracterizar o cordão de solda quanto à microestrutura, à dureza e à corrosão. A microestrutura foi avaliada por microscopia óptica; para dureza foi realizado perfil de microdureza Vickers ao longo da junta soldada; quanto à corrosão foram realizadas curvas potenciodinâmicas em três diferentes soluções: 3,5% NaCl, 3,5% NaCl + 0,01M Na 2 S 2 O 3 e 3,5% NaCl + 1N H 2 SO 4 . Os resultados obtidos mostraram que a zona fundida tem microestrutura dendrítica, sendo a zona afetada pelo calor de aproximadamente 1,2 mm de extensão. A solda não alterou significativamente as propriedades de corrosão e dureza. Palavras-chave: Inconel 625; Soldagem; Corrosão; Microestrutura. MICROSTRUCTURE AND CORROSION RESISTANCE OF WELD JOINT INCONEL 625 AbstractNickel-based superalloys show a great combination of strength, corrosion, fatigue, creep and oxidation resistance, in addition to the ability of operate in high temperatures. Alloy 625 has been investigated recently like a coating on carbon steel tubes utilized in oil and gas industry utilizing cladding or thermal spray process. These tubes can be joint by welding, however, this process may changes some properties in weld joints InconelInconel. So, the main target of this work is to perform the Inconel 625 weld joint by shielded metal arc welding process with ERCrNiMo-3 and characterize the microstructure, corrosion resistance and hardness. The microstructure was investigated by optical microscopy. Microhardness Vickers profile was done across the joint transverse section. Electrochemical polarization techniques were used to characterize the corrosion resistance in three different solutions: 3.5% NaCl, 3.5% NaCl + 0.01M Na 2 S 2 O 3 e 3.5% NaCl + 1N H 2 SO 4 . The results show that fusion zone microstructure is dendritic and the heat input modified the base metal around 1.2 mm. The weld did not significative modification of corrosion resistance and hardness.
ResumoO aço API 5 CT P110 é amplamente utilizado no setor de petróleo e gás no Brasil devido sua elevada resistência mecânica, contudo ele não possui uma boa resistência a corrosão. Com a descoberta do pré-sal, novos desafios surgem neste setor, tornando necessário o desenvolvimento de novas tecnologias resistentes aos ambientes agressivos que os materiais serão expostos. A aspersão térmica por HVOF se destaca pela obtenção de revestimentos contra corrosão e resistentes ao desgaste com baixa porosidade e com um relativo baixo custo em comparação a outros processos. Dentre os materiais que podem ser aplicados como revestimentos por aspersão térmica, o níquel se destaca pela ótima resistência à corrosão por formar um óxido protetor na superfície. Sendo assim, o presente trabalho tem por objetivo obter e caracterizar revestimentos de níquel obtidos por aspersão térmica HVOF, no aço API 5CT P110. Os revestimentos foram caracterizados morfologicamente por microscopia eletrônica de varredura (MEV). Foram obtidas curvas de polarização para avaliar o comportamento frente à corrosão e foram realizados ensaios para determinação do coeficiente de atrito. A camada aspergida de níquel apresentou resultados satisfatórios quanto às análises estudadas. Palavras-chave: Aspersão térmica HVOF; Corrosão; MEV e coeficiente de atrito.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.