Characterization and Sliding Wear Behavior of Iron-Based Metallic Coating Deposited by HVOF Process on Low-Carbon Steel Substrate

In this paper, a low carbon steel was used as the substrate to prepare the carbon nanostructural materials by the oxygen-acetylene flame method. The experimental results show that the composite products including nodular carbon nanoparticles and amorphous carbon were obtained on the substrate after a mechanical polishing pretreatment. Comparatively, the short tubular carbon nanofibers with the diameter of around 100 nm were deposited on the substrate pretreated by dipping in the concentrated nitric acid solution. The possible mechanism for the growth of such carbon nanofibers was discussed.

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Applying FeAl coating on the low carbon steel substrate through self-propagation high temperature synthesis (SHS) process

Surface and Coatings Technology ◽

10.1016/j.surfcoat.2015.12.029 ◽

2016 ◽

Vol 286 ◽

pp. 383-387 ◽

Cited By ~ 19

Author(s):

S. Mohammadkhani ◽

E. Jajarmi ◽

H. Nasiri ◽

J. Vahdati-Khaki ◽

M. Haddad-Sabzevar

Keyword(s):

High Temperature ◽

Carbon Steel ◽

Steel Substrate ◽

Low Carbon Steel ◽

Low Carbon ◽

Temperature Synthesis ◽

High Temperature Synthesis

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The Microstructure of Annealed Galfan Coating on Steel Substrate

Archives of Metallurgy and Materials ◽

10.2478/v10172-012-0054-z ◽

2012 ◽

Vol 57 (2) ◽

pp. 517 ◽

Cited By ~ 6

Author(s):

M. Żelechower ◽

J. Kliś ◽

E. Augustyn ◽

J. Grzonka ◽

D. Stróż ◽

...

Keyword(s):

Carbon Steel ◽

Electron Diffraction ◽

Steel Substrate ◽

Low Carbon Steel ◽

Alloy Coating ◽

Annealed Sample ◽

Low Carbon ◽

Interface Area ◽

Two Phase ◽

Al Content

The Microstructure of AnnealedGalfanCoating on Steel SubstrateThe commercially availableGalfancoating containing 5-7wt.% of Al deposited on the low carbon steel substrate by hot dipping has been examined with respect to the microstructure of the coating/substrate interface area. The application of several experimental techniques (SEM/EDS, XRD, TEM/AEM/EDS/ED) allowed demonstrating the two-phase structure of the alloy coating in non-treated, commercially availableGalfansamples: Zn-rich pre-eutectoidηphase grains are surrounded by lamellar eutectics ofβ-Al andη-Zn. The transition layer between the alloy coating and steel substrate with the considerably higher Al content (SEM/EDS, TEM/EDS) has been found in both non-treated and annealed samples (600°C/5 minutes). Only the monoclinic FeAl3Znxphase however was revealed in the annealed sample (TEM/electron diffraction) remaining uncertain the presence of the orthorhombic Fe2Al5Znxphase, reported by several authors.

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Scratch and Sliding Wear Testing of Electroless Ni–B–W Coating

Journal of Tribology ◽

10.1115/1.4045165 ◽

2019 ◽

Vol 142 (2) ◽

Cited By ~ 2

Author(s):

Vaibhav Nemane ◽

Satyajit Chatterjee

Keyword(s):

Sliding Wear ◽

Wear Behavior ◽

Lattice Structure ◽

Normal Load ◽

Low Carbon Steel ◽

Wear Test ◽

Behavioral Pattern ◽

Wear Testing ◽

Low Carbon ◽

Electroless Ni

Abstract Electroless Ni–B–W coating is deposited on low carbon steel in an alkaline sodium borohydride-reduced electroless bath. The mechanical and tribological properties of such coatings are much necessary to be assessed to carry out application-based studies. The present work focuses mainly on the evaluation of hardness and fracture toughness of electroless Ni–B–W coatings using a scratch tester. Coating's response toward scratching is also studied thoroughly. The characteristic short-range order present in its lattice structure causes the generation of a specific behavioral pattern. Furthermore, a linear sliding wear test is carried out on coatings' surface to analyze the wear behavior at different loading conditions. The specific wear rate is observed to be minimum at a normal load of 22.5 N against Si3N4 counterbody. The patterns of tribological behavior of the coating at different load values are examined from the worn surface morphologies. But before embarking on the scratch and sliding wear tests, the synthesized coatings are characterized under field emission scanning electron microscope and X-ray diffraction in an exhaustive manner. The growth rates with respect to time and the changes in morphological aspects of the coating are also evaluated. The present study establishes electroless Ni–B–W deposits as a suitable option for protecting mechanical components against wear.

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Effect of iron content on the wear behavior and adhesion strength of TiC–Fe nanocomposite coatings on low carbon steel produced by air plasma spray

Ceramics International ◽

10.1016/j.ceramint.2019.09.255 ◽

2020 ◽

Vol 46 (3) ◽

pp. 2670-2676 ◽

Cited By ~ 2

Author(s):

E. Ghahabi ◽

Y. Shajari ◽

M. Razavi ◽

I. Mobasherpour ◽

S.A. Tayebi fard

Keyword(s):

Carbon Steel ◽

Adhesion Strength ◽

Plasma Spray ◽

Iron Content ◽

Wear Behavior ◽

Low Carbon Steel ◽

Nanocomposite Coatings ◽

Air Plasma Spray ◽

Low Carbon ◽

Air Plasma

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Electrochemical Corrosion Behavior of Ni-doped ZnO Thin Film Coated on Low Carbon Steel Substrate in 3.5% NaCl Solution

International Journal of Electrochemical Science ◽

10.20964/2020.05.25 ◽

2020 ◽

pp. 4117-4126 ◽

Cited By ~ 40

Author(s):

Duo Zhang ◽

Keyword(s):

Thin Film ◽

Carbon Steel ◽

Steel Substrate ◽

Low Carbon Steel ◽

Electrochemical Corrosion ◽

Zno Thin Film ◽

Low Carbon ◽

Nacl Solution ◽

Electrochemical Corrosion Behavior ◽

Doped Zno

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Zn/Ni Electrodeposition on Low Carbon Steel Substrate.

ISIJ International ◽

10.2355/isijinternational.37.512 ◽

1997 ◽

Vol 37 (5) ◽

pp. 512-518 ◽

Cited By ~ 3

Author(s):

Hiroyuki Ohtsubo ◽

Hideki Sogo ◽

Kiyomichi Nakai ◽

Yasuya Ohmori

Keyword(s):

Carbon Steel ◽

Steel Substrate ◽

Low Carbon Steel ◽

Low Carbon

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Precipitation Behavior of Magnetite in Oxide Scale during Cooling of Microalloyed Low Carbon Steel

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.572.249 ◽

2012 ◽

Vol 572 ◽

pp. 249-254 ◽

Cited By ~ 9

Author(s):

Xiang Long Yu ◽

Zheng Yi Jiang ◽

Dai Jun Yang ◽

Dong Bin Wei ◽

Quan Yang

Keyword(s):

Carbon Steel ◽

Oxide Scale ◽

Steel Substrate ◽

Low Carbon Steel ◽

Precipitation Process ◽

Low Carbon ◽

Precipitation Behavior ◽

Magnetite Particles ◽

And Migration ◽

The Stability

Precipitation behavior of magnetite particles in the thermal grown oxide scale during isothermal cooling of microalloyed low carbon steel was studied using scanning electron microscopy (SEM) and thin film X-ray. The oxide scale was generated from Gleeble 3500 Thermal Mechanical Simulator connected with a humid air generator, to simulate 550 and 450C isothermal treatments. Several types of magnetite precipitates were observed during different cooling processes with respect to the possible mechanisms of precipitation have been discussed. It is found that magnetite particles is as a result of pro-eutectoid precipitation from oxygen-rich wustite, and also as a product of the partial decomposition of wustite during the cooling process due to change of oxygen concentration and migration of iron ions. Furthermore, microalloyed elements in steel reduce the stability of wustite thereby facilitate the precipitation process, whose products of multi-phase oxide finally determine the adhesive strength of oxide scale and steel substrate.

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