Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study

Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study

Good mechanical properties combined with outstanding corrosion-resistance properties of cast nickel-aluminum bronze (NAB) alloy lead to be a specific material for many marine applications, including ship propellers. However, the erosion-corrosion resistance of cast-NAB alloy is not as good as wrough...

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Bibliographic Details
Main Authors: Rajakumar S., Balasubramanian V., Balakrishnan M.
Format: Article
Language:English
Published: De Gruyter 2016-08-01
Series:Journal of the Mechanical Behavior of Materials
Subjects:
corrosion
erosion
friction
microstructure
surfacing
Online Access:https://doi.org/10.1515/jmbm-2016-0013
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spelling doaj-7327cdc157c04383bd74c96085ea59d12021-10-02T17:53:18ZengDe GruyterJournal of the Mechanical Behavior of Materials0334-89382191-02432016-08-01253-411111910.1515/jmbm-2016-0013Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion studyRajakumar S.0Balasubramanian V.1Balakrishnan M.2Department of Manufacturing Engineering, Annamalai University, Annamalai Nagar-608002, Tamil Nadu, IndiaDepartment of Manufacturing Engineering, Annamalai University, Annamalai Nagar-608002, Tamil Nadu, IndiaDepartment of Mechanical Engineering, M. Kumarasamy College of Engineering, Thalavapalayam, Karur-639113, Tamil Nadu, IndiaGood mechanical properties combined with outstanding corrosion-resistance properties of cast nickel-aluminum bronze (NAB) alloy lead to be a specific material for many marine applications, including ship propellers. However, the erosion-corrosion resistance of cast-NAB alloy is not as good as wrought NAB alloy. Hence, in this investigation, an attempt has been made to improve the erosion-corrosion resistance of cast NAB alloy by depositing wrought (extruded) NAB alloy applying the friction surfacing (FS) technique. Erosion-corrosion tests were carried out in slurries composed of sand particles of 3.5% NaCl solution. Silica sand having a nominal size range of 250–355 μm is used as an erodent. Specimens were tested at 30° and 90° impingement angles. It is observed that the erosion and erosion-corrosion resistance of friction surfaced NAB alloy exhibited an improvement as compared to cast NAB alloy. Scanning electron microscope (SEM) analysis showed that the erosion tracks developed on the cast NAB alloy were wider and deeper than those formed on the friction surfaced extruded NAB alloy.https://doi.org/10.1515/jmbm-2016-0013corrosionerosionfrictionmicrostructuresurfacing
collection DOAJ
language English
format Article
sources DOAJ
author Rajakumar S.
Balasubramanian V.
Balakrishnan M.
spellingShingle Rajakumar S.
Balasubramanian V.
Balakrishnan M.
Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
Journal of the Mechanical Behavior of Materials
corrosion
erosion
friction
microstructure
surfacing
author_facet Rajakumar S.
Balasubramanian V.
Balakrishnan M.
author_sort Rajakumar S.
title Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
title_short Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
title_full Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
title_fullStr Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
title_full_unstemmed Friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
title_sort friction surfacing for enhanced surface protection of marine engineering components: erosion-corrosion study
publisher De Gruyter
series Journal of the Mechanical Behavior of Materials
issn 0334-8938
2191-0243
publishDate 2016-08-01
description Good mechanical properties combined with outstanding corrosion-resistance properties of cast nickel-aluminum bronze (NAB) alloy lead to be a specific material for many marine applications, including ship propellers. However, the erosion-corrosion resistance of cast-NAB alloy is not as good as wrought NAB alloy. Hence, in this investigation, an attempt has been made to improve the erosion-corrosion resistance of cast NAB alloy by depositing wrought (extruded) NAB alloy applying the friction surfacing (FS) technique. Erosion-corrosion tests were carried out in slurries composed of sand particles of 3.5% NaCl solution. Silica sand having a nominal size range of 250–355 μm is used as an erodent. Specimens were tested at 30° and 90° impingement angles. It is observed that the erosion and erosion-corrosion resistance of friction surfaced NAB alloy exhibited an improvement as compared to cast NAB alloy. Scanning electron microscope (SEM) analysis showed that the erosion tracks developed on the cast NAB alloy were wider and deeper than those formed on the friction surfaced extruded NAB alloy.
topic corrosion
erosion
friction
microstructure
surfacing
url https://doi.org/10.1515/jmbm-2016-0013
work_keys_str_mv AT rajakumars frictionsurfacingforenhancedsurfaceprotectionofmarineengineeringcomponentserosioncorrosionstudy
AT balasubramanianv frictionsurfacingforenhancedsurfaceprotectionofmarineengineeringcomponentserosioncorrosionstudy
AT balakrishnanm frictionsurfacingforenhancedsurfaceprotectionofmarineengineeringcomponentserosioncorrosionstudy
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