Effect of Elemental Sulfur on Corrosion Behavior of Super 13Cr Martensitic Stainless Steel

Effects of elemental sulfur on corrosion behavior of super 13Cr martensitic stainless steel were investigated by utilizing weight loss test, and the micro morphologies and chemical elements of corrosion scales were characterized by using SEM and EDS. The results showed that corrosion resistance of super 13Cr stainless steel was aggravated by the hydrolytic action of sulfur, the corrosion rate of super 13Cr stainless steel increased with the increasing of sulfur content, and firstly increased and then decreased with the increasing of temperature due to the activated adsorption and existential state of sulfur at the different temperatures.

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Effect of Minor Alloying Elements on the Corrosion Behavior of Fe40Al in NaCl-KCl Molten Salts

International Journal of Corrosion ◽

10.1155/2012/185842 ◽

2012 ◽

Vol 2012 ◽

pp. 1-7 ◽

Cited By ~ 2

Author(s):

G. Salinas ◽

J. G. Gonzalez-Rodriguez ◽

J. Porcayo-Calderon ◽

V. M. Salinas-Bravo ◽

M. A. Espinoza-Medina

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

Corrosion Resistance ◽

Corrosion Rate ◽

Corrosion Behavior ◽

Molten Salts ◽

Electrochemical Techniques ◽

The Other ◽

Type Stainless Steel ◽

Waste Gasification

The hot corrosion behavior of Fe40Al intermetallic alloyed with Ag, Cu, Li, and Ni (1–5 at.%) in NaCl-KCl (1 : 1 M) at 670°C, typical of waste gasification environments, has been evaluated by using polarization curves and weight loss techniques and compared with a 304-type stainless steel. Both gravimetric and electrochemical techniques showed that all different Fe40Al-base alloys have a much higher corrosion resistance than that for stainless steel. Among the different Fe40Al-based alloys, the corrosion rate was very similar among each other, but it was evident that the addition of Li decreased their corrosion rate whereas all the other elements increased it. Results have been explained in terms of the formation and stability of an external, protective Al2O3layer.

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Corrosion Behavior of Duplex Stainless Steel in Industrial White Liquor

CORROSION ◽

10.5006/2558 ◽

2017 ◽

Vol 74 (5) ◽

pp. 543-550 ◽

Cited By ~ 1

Author(s):

Luiza Esteves ◽

Mônica M.A.M. Schvartzman ◽

Wagner Reis da Costa Campos ◽

Vanessa F.C. Lins

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

Corrosion Rate ◽

Duplex Stainless Steel ◽

Corrosion Behavior ◽

Extrapolation Method ◽

White Liquor ◽

Duplex Steel ◽

Kraft Mill ◽

Lower Corrosion Rate

Specimens of lean duplex and duplex stainless steel were exposed at 200°C in industrial white liquor from a Brazilian kraft mill using an autoclave to simulate the same conditions of digester processing. Tafel extrapolation method and weight loss were used to evaluate corrosion behavior of duplex steel in white liquor. The higher alloy steel, although presenting a lower corrosion rate than the lean duplex, presents a more severe selective attack on ferrite, at 200°C and 1.8 MPa, after Tafel extrapolation method in industrial white liquor.

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Feasibility Study on Optimisation of Material Selection for High Temperature Sour Gas Producer

10.2523/iptc-21380-ms ◽

2021 ◽

Author(s):

M. Helmi Nordin ◽

M. Wahidullah Moh Wahi ◽

Amresh Sashidharan ◽

Nurfuzaini A. Karim ◽

Alif Syahrizad Ramli

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

High Temperature ◽

Corrosion Rate ◽

Stress Corrosion Cracking ◽

Martensitic Stainless Steel ◽

Material Selection ◽

Working Temperature ◽

Fit For Purpose ◽

Selection For

Abstract K field is a green field in East Malaysia with prolific gas reserves that is being developed with six high rate gas producing wells from high temperature (190 °C) carbonate reservoir. Tubular material feasibility study is one of the key subjects of scrutiny when it comes to completing wells in high temperature environment coupled with existence of significant level of H2S and CO2 contents. Material testing was conducted at the specified test environments (102 bar CO2 + 120ppm H2S) and load cases to assess susceptibility of Martensitic Stainless Steel to Stress Corrosion Cracking (SCC), corrosion rate and compatibility with completion brine. The aim was to optimize the material selection that is fit for purpose (lower completion and flow-wetted area of production casing) and reduce well cost up to USD 2.5 million. The base case of material selection for flow-wetted section is 17CR110 ksi, which meets the design requirements of these wells based on fit for purpose test conducted in the data base. Flow-wetted section in this case is production liner and flow-wetted section of production casing below production packer. Super 13CR -110 ksi and 15CR125 ksi material grades were considered for design optimization for this section of interest. Four Point Bend Method was used for SCC test sets while weight loss method for corrosion rate measurement. For brine compatibility test, calcium bromide (without additive) was used as test solution for 17CR 110 ksi, 15CR 125 ksi and Super 13CR -110 ksi with elevated temperature of 190 °C. Post-test assessment was conducted by visual examination by stereomicroscope to check for surface indication and dye-penetrant examination to determine any indication of cracks. It was observed that the Super 13CR -110 ksi and 15CR 125 ksi test specimens survived the test with no pitting observed. Meanwhile, test specimens were weighed to determine corrosion rates, resulted to Super 13CR -110 ksi sample having an average corrosion rate of 0.2195 mm/year. This translates to less than 30% weight loss throughout well production life and therefore accepted for open-hole production liner and production casing flow-wetted section. Key enabler in this design optimization effort is the understanding of the Stress Corrosion Cracking for martensitic stainless steel in high temperature sour environment where commonly, martensitic stainless steel (Super 13Cr / Modified Super 13Cr) working temperature is 165 °C. The test manages to extend the working temperature up to 190 °C.

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Corrosion Behavior of Materials Al5083 Alloy, 316L Stainless Steel and A681 Carbon Steel in Seawater

The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science ◽

10.35219/mms.2021.2.07 ◽

2021 ◽

Vol 44 (2) ◽

pp. 39-46

Author(s):

Gina Genoveva ISTRATE ◽

Alina Crina MUREȘAN

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

Carbon Steel ◽

Corrosion Rate ◽

Corrosion Behavior ◽

Aluminium Alloys ◽

Saturated Calomel Electrode ◽

Open Circuit ◽

Carbon Steels ◽

Test Technique

In this paper the corrosion behavior of different materials has been evaluated based on exposure in seawater. The laboratory immersion test technique has been applied to evaluate the effect of seawater on the corrosion behavior of different materials. In three sets of experiments, carbon steels (A681 Type O7), austenitic stainless steels (316L) and aluminium alloys (Al5083) were utilized. The specimens were fixed fully submerged in seawater. The corrosion process was evaluated using weight loss method, open-circuit potential measurements (OCP) and polarization techniques. To determine gravimetric index and the rate of penetration, samples were immersed in corrosive environment for 89 days and weighed periodically. The electrochemical experiments were conducted with a Potentiostat/Galvanostat (PGP 201) analyzer. It was connected to a PC. The Voltamaster software was used for electrochemical data analysis. A three-electrode cell composed of a specimen as a working electrode, Pt as counter electrode, and saturated calomel electrode (SCE) (Hg (l)/ Hg2Cl2 (s)) as a reference electrode were used for the tests. The weight loss tests revealed the lowest corrosion rate values for stainless steel and aluminium alloys, indicating a beneficial use for these materials in marine environments. The potentiodynamic method shows that the lowest corrosion rate in seawater (2.8 μm /year) was obtained for the Al5083 alloy, and the highest value of the corrosion rate (41.67 μm/year) for A681 carbon steel.

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Effect of Sintering Temperature and Atmosphere on Corrosion Behavior of MIM 316L Stainless Steel

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.239-242.132 ◽

2011 ◽

Vol 239-242 ◽

pp. 132-136

Author(s):

Hao He ◽

Yi Min Li ◽

Da Peng Li

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

Corrosion Resistance ◽

Corrosion Behavior ◽

316L Stainless Steel ◽

Sintering Temperature ◽

Immersion Test ◽

Metal Injection Molding ◽

Surface Pores ◽

Hcl Solution

In the present study, effect of sintering temperature and atmosphere on corrosion behavior of 316L stainless steel specimens manufactured by metal injection molding (MIM) process were investigated. Sintering experiments were carried out at 1320°C, 1370°C and 1375°C under various sintering atmospheres, i.e. Ar+H2, Ar, N2+H2or N2. The corrosion behavior of as-sintered specimens was studied by weight loss immersion test in 5%HCl solution. The results indicated that a better corrosion resistance was accompanied higher density, finer and rounder surface pores. The specimens sintered under Ar+H2atmosphere at 1370°C had little susceptibility to intergranular corrosion.

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Improvement of Erosion-Corrosion Behavior of AISI 420 Stainless Steel by Ion-Assisted Deposition ZrN Coatings

Metals ◽

10.3390/met11111811 ◽

2021 ◽

Vol 11 (11) ◽

pp. 1811

Author(s):

Yuntao Xi ◽

Lin Wan ◽

Jungang Hou ◽

Zhiyong Wang ◽

Lei Wang ◽

...

Keyword(s):

Stainless Steel ◽

Corrosion Resistance ◽

Corrosion Behavior ◽

Small Angle ◽

Martensitic Stainless Steel ◽

Multilayer Coating ◽

Knoop Hardness ◽

Slurry Erosion ◽

Aisi 420 ◽

Erosion Corrosion

In this paper, a pragmatic technique has been developed to evaluate the erosion-corrosion behavior of three kinds of ZrN coatings (i.e., monolayer, multilayer, and gradient layers) which were deposited on AISI 420 martensitic stainless steel using an ion-assisted deposition technology. Among them, the monolayer coating refers to the coating with no change in composition and structure, the multilayer coating refers to the coating with alternating change of Zr/ZrN, and the gradient coating refers to the ZrN coating by increasing N2 partial pressure gradually. The morphology, composition, and microhardness of these ZrN coatings were examined by means of integrating the scanning electron microscopy (SEM), X-ray diffraction (XRD), and Knoop hardness measurements, while anodic polarization tests and salt fog spray tests in a simulated industrial environment have been performed to evaluate and identify the corrosion mechanisms of these coatings. The surface microhardness and corrosion resistance of the AISI420 martensitic stainless steel is found to be significantly improved by depositing the ion-assisted deposition ZrN coatings. The study indicates that the erosion-corrosion behavior in the slurry is the result of the synergistic effect of small-angle erosion and acid solution corrosion. Three ZrN coatings hinder the slurry erosion-corrosion behavior from two aspects (i.e., erosion resistance of small-angle particles as well as corrosion resistance of the substrate), thereby significantly improving the erosion-corrosion resistance of AISI 420 stainless steel. In addition, the ZrN gradient coatings show a much better erosion-corrosion resistance than that of the monolayer/multilayer ZrN coating because they have excellent crack resistance, bearing capacity, and electrochemical performance.

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Influence of Aging Heat Treatment on Pitting Corrosion Resistance of Martensitic Stainless Steel

Al-Khwarizmi Engineering Journal ◽

10.22153/kej.2021.12.003 ◽

2021 ◽

Vol 17 (1) ◽

pp. 20-33

Author(s):

Abdullah Dhayea Assi

Keyword(s):

Heat Treatment ◽

Stainless Steel ◽

Corrosion Resistance ◽

Corrosion Rate ◽

Pitting Corrosion ◽

Corrosion Test ◽

Martensitic Stainless Steel ◽

Aging Heat Treatment ◽

Chemical Corrosion ◽

Pitting Corrosion Resistance

In this research is to study the influence of the aging heat treatment on the pitting corrosion resistance of martensitic stainless steel (MSS), where a number of specimens from martensitic stainless steel were subjected to solution treatment at 1100 oC for one hour followed by water quenching then aging in the temperatures range (500-750) oC for different holding times (1,5,10,15&20) hr. Accelerated chemical corrosion test and immersion chemical corrosion test were performed on samples after heat treatment. The results of the research showed that the pitting corrosion resistance is significantly affected by the aging temperature. Where found that the aging samples at a temperature of 500 °C have the highest rate of corrosion which may be due to an increase in the ratio of the Delta type ferrite (δ-ferrite) and very soft precipitates from other phases of heterogeneous form in the basic martensitic phase; which leads to increased corrosion rate, whereas aging samples in the temperature range (550–650) °C have the smaller rate of corrosion values, this is due to the high volumetric ratio of remaining austenite. The aging samples at temperatures above 650 °C show an average corrosion rate. It was also found that the type of pits resulting from both the chemical corrosion tests and their shape were not related to the ferrite type and the carbides present in the microstructure

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Hot Corrosion Behavior of High-Chromium, High-Carbon Cast Irons in NaCl-KCl Molten Salts

International Journal of Corrosion ◽

10.1155/2012/479761 ◽

2012 ◽

Vol 2012 ◽

pp. 1-9 ◽

Cited By ~ 3

Author(s):

S. Vuelvas-Rayo ◽

J. G. Gonzalez-Rodriguez ◽

J. Porcayo-Calderon ◽

V. M. Salinas-Bravo ◽

S. I. Maldonado-Ruiz

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

Corrosion Rate ◽

Corrosion Behavior ◽

Molten Salts ◽

Degradation Rate ◽

High Carbon ◽

Cast Irons ◽

High Chromium ◽

Type Stainless Steel

A study on the corrosion behavior of a series of experimental high-chromium (18.53–30.48 wt.%), high-carbon (3.82–5.17%) cast irons in NaCl-KCl (1 : 1 M) at 670°C has been evaluated by using weight loss technique and compared with a 304-type stainless steel. It was found that all castings had a higher corrosion rate than conventional 304SS and that the addition of Cr increased the degradation rate of the cast irons. Additionally, corrosion rate increased by increasing the C contents up to 4.29%, but it decreased with a further increase in its contents. Results are discussed in terms of consumption of the Cr2O3layer by the melt.

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The corrosion behavior of compositional modified AISI type 304L stainless steel for nitric acid application

Anti-Corrosion Methods and Materials ◽

10.1108/acmm-02-2018-1906 ◽

2019 ◽

Vol 66 (2) ◽

pp. 149-158 ◽

Cited By ~ 1

Author(s):

Gopinath Shit ◽

S. Ningshen

Keyword(s):

Weight Loss ◽

Stainless Steel ◽

Corrosion Resistance ◽

Nitric Acid ◽

Corrosion Rate ◽

Electrochemical Impedance ◽

Electrochemical Measurements ◽

304L Stainless Steel ◽

Content Type ◽

Aisi Type

Purpose High corrosion resistance in different concentrations of nitric acid is essential for structural steels to be used for the aqueous reprocessing of spent nuclear fuels with high plutonium content. Design/methodology/approach In the present study, the corrosion resistance of type 304L stainless steel (SS) with modified composition was evaluated in different concentrations of nitric acid using surface analytical techniques, weight loss method and electrochemical measurements. Findings Weight loss measurement in boiling 65 per cent nitric acid showed a low corrosion rate value of about 0.2 mm/y (8 mpy) after 240 h exposure. Electrochemical measurements revealed the shift in open circuit potentials as well as corrosion potential toward more noble direction, and the results of electrochemical impedance spectroscopy studies indicated the reduction in the thickness and stability of the passive film with increasing concentration from 6 to 11.5 M nitric acid. Research limitations/implications The low corrosion rate observed for this steel is attributed to the higher content of Cr (19 per cent), Ni (10 per cent) and Si (0.3 per cent) and controlled minor alloying elements (S, P, B, C, etc.) in the alloy that contributed to improving the transpassive corrosion resistance and minimizing the intergranular corrosion attack. The X-ray photoelectron spectroscopic analysis revealed the composition of the passive films to be mainly of iron and chromium oxides. Practical implications Materials with lower corrosion rates are desirable for applications in nitric acid. Social implications The used of nitric acid creates a severe corrosive environment in chemical or aqueous nuclear reprocessing plants, and hence with a modified composition of type 304L SS resulting in minimizing failure of components are desirable for reducing cost and maintenance. Originality/value The present paper is an original work carried out by the authors on the corrosion resistance behaviors of composition modified AISI type 304L SS for nitric acid application. The effects of different nitric acid concentrations were compared to provide understanding on in applicability in boiling and high nitric acid concentrations.

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CTS-BD30P ALLOY

Alloy Digest ◽

10.31399/asm.ad.ss1154 ◽

2013 ◽

Vol 62 (8) ◽

Keyword(s):

Stainless Steel ◽

Wear Resistance ◽

Corrosion Resistance ◽

Physical Properties ◽

Martensitic Stainless Steel ◽

Heat Treating ◽

Powder Metal ◽

High Concentration ◽

Vanadium Carbides

Abstract Carpenter CTS-BD30P alloy is a powder metal processed, air-hardening, martensitic stainless steel that offers corrosion resistance comparable with Type 440C stainless, combined with excellent toughness and wear resistance attributed to a high concentration of vanadium carbides. The Carpenter CTS family of alloys is used for many blade applications. This datasheet provides information on composition and physical properties. It also includes information on corrosion resistance as well as heat treating and powder metal forms. Filing Code: SS-1154. Producer or source: Carpenter Specialty Alloys.

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