Formation of Al and Cr Dual Coatings by Pack Cementation on SNCM439 Steel

Chen, Jhewn‐Kuang; Chen, Shih-Fan; Huang, Che-Shun

doi:10.2355/isijinternational.52.127

Cited by 13 publications

(5 citation statements)

References 20 publications

(19 reference statements)

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“…Halide activated pack cementation process is essentially an in situ chemical vapor deposition (CVD) coating process. A typical pack consists of four components (Chen et al 2012):…”

Section: Introductionmentioning

confidence: 99%

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Modeling of Surface Modification of Stainless Steel by Halide Activated Pack Cementation Method

KAHRIMAN

2023

Afyon Kocatepe University Journal of Sciences and Engineering

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In high-temperature applications, ferrous-based materials are important due to their excellent combination of desirable mechanical properties, ease of production, corrosion resistance at room temperature and cost-effectiveness. However, mechanical properties must be optimized against environmental effects. Depending on the industrial applications, various corrosion types may also occur. An approach to preserve the mechanical properties of the structural alloy being protected against corrosion is the application of protective coatings to the surfaces. Diffusion coatings are an effective method to obtain corrosion, oxidation and abrasion resistance against detrimental conditions of high temperature. According to the literature, the halide activated pack cementation method has been widely used for ferrous-based materials for a long time. However, most studies concerned with developing coating applications are based on experimental investigations that include microscopic, chemical, and mechanical analyses. Limited studies have been conducted based on computational alloy approaches. In this study, Cr coating of the AISI 316L steel by halide activated pack cementation method was considered as a diffusional problem and the kinetics of the coating deposition process were examined. The effect of process variables such as temperature, time and the compositions of coating layers formed on the surfaces were investigated thermodynamically with Thermo-Calc software and kinetically with DICTRA module. This approach provides insight into the dependence of solid-state diffusions on the processing parameters, and a better understanding of the phases that form along the coating and substrate material.

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“…Halide activated pack cementation process is essentially an in situ chemical vapor deposition (CVD) coating process. A typical pack consists of four components (Chen et al 2012):…”

Section: Introductionmentioning

confidence: 99%

“…The diffusion elements modify the surface chemical composition resulting in phase transformations along the depth of the material (Casteletti et al 2009). Therefore, the coating composition is dependent on processing temperature, time, substrate composition, and atmosphere (Chen et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Modeling of Surface Modification of Stainless Steel by Halide Activated Pack Cementation Method

KAHRIMAN

2023

Afyon Kocatepe University Journal of Sciences and Engineering

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“…Multilayer multicomponent coatings with aluminum are particularly interesting [16][17][18]. It can be assumed that in titanium aluminizing and chrome aluminizing, the coatings will combine the heat resistance of aluminum compounds with a hardness of carbides, titanium nitride, and chromium (TiN, TiC, Cr 7 C 3 , and Cr 23 C 6 ) on the surface of carbon steel.…”

Section: Introductionmentioning

confidence: 99%

Composition, Structure, and Properties of Ti, Al, Cr, N, C Multilayer Coatings on AISI W1-7 Alloyed Tool Steel

et al. 2022

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New methods of diffusion metallization of AISI W1-7 steel have been developed. The paper proposes a comparative analysis of the properties and characteristics of AISI W1-7 steel after three methods of chemical heat treatment: diffusion nitriding, nitrogen titration by physical deposition from the gas phase, and diffusion chromium plating with subsequent titanium alloys. The results are presented as a comprehensive analysis of coatings: metallographic, micro-X-ray spectral, X-ray phase, durometric, heat resistance, and wear resistance. It is established that multilayer protective coatings are formed as a result of treatments. It is shown that the coatings consist of carbide and nitride zones, intermetallic, and an Al2O3 layer outside the coating. The coatings have been found to contain barrier layers that prevent aluminum from penetrating the substrate. The maximum microhardness is typical for layers based on titanium carbide—30.3–35.5 GPa and titanium nitride—22.0–22.6 GPa, heat-resistant steels AISI W1-7 at a temperature of 900 °C in 4.2–8.5 times and wear resistance under sliding friction without lubrication up to 5.4 times compared to samples without treatment.

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“…However, these methods often require expensive equipment and huge operating costs. Fortunately, pack cementation is a cost‐efficient method to prepare metallic coatings, such as Al, Ti, and Cr, on the surface of metallic substrates with satisfactory interfacial strength . It is an in‐situ and self‐generated CVD process to deposit a diffusion coating in essence.…”

Section: Introductionmentioning

confidence: 99%

A study on preparation and corrosion behavior of nano rare earth oxide‐modified chromized coatings

Wang

Tang

Pei

et al. 2019

Materials & Corrosion

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The corrosion resistance of carbon steel in a harsh environment was improved by preparing a chromized coating on the surface through the method of pack cementation. Nano rare earth‐oxides (NREOs), Y2O3, CeO2, and La2O3 were added to the pack and to further enhance the performance of the chromized coatings. Morphological results showed that NREO refined the microstructure of chromized coatings by retarding the growth of grains. The Mott–Schottky plots demonstrated that coating Cr–La2O3 displayed fewer defects than the other two composite coatings, which was beneficial to reduce the corrosion tendency. In addition, the potentiodynamic polarization and impedance spectroscopy analysis showed that the order of the corrosion rates of the achieved coatings was pure Cr > Cr–Y2O3 > Cr–CeO2 > Cr–La2O3, which revealed that the corrosion resistance increased accordingly.

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Formation of Al and Cr Dual Coatings by Pack Cementation on SNCM439 Steel

Cited by 13 publications

References 20 publications

Modeling of Surface Modification of Stainless Steel by Halide Activated Pack Cementation Method

Modeling of Surface Modification of Stainless Steel by Halide Activated Pack Cementation Method

Composition, Structure, and Properties of Ti, Al, Cr, N, C Multilayer Coatings on AISI W1-7 Alloyed Tool Steel

A study on preparation and corrosion behavior of nano rare earth oxide‐modified chromized coatings

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