Effect of friction stir processing on erosion–corrosion behavior of nickel–aluminum bronze

•The average hardness value of the FSP samples was higher than cast sample.•Erosion–corrosion rate of the FSP samples was higher than cast sample.•The gravimetric analysis showed a negative synergy. In the present investigation, effects of Friction Stir Processing (FSP) on Erosion–Corrosion (E–C) be...

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Bibliographic Details
Published in:Materials in engineering 2014-10, Vol.62, p.282-287
Main Authors: Lotfollahi, M., Shamanian, M., Saatchi, A.
Format: Article
Language:English
Subjects:
ALUMINUM BRONZES (CASTING)
Bronzes
CORROSION
EROSION
EROSION CORROSION
Fine structure
Friction stir processing
HARDNESS
Kinetic energy
KINETICS
Nickel
Nickel–aluminum bronze
Protective
Scanning electron microscopy
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Summary:•The average hardness value of the FSP samples was higher than cast sample.•Erosion–corrosion rate of the FSP samples was higher than cast sample.•The gravimetric analysis showed a negative synergy. In the present investigation, effects of Friction Stir Processing (FSP) on Erosion–Corrosion (E–C) behavior of Nickel–Aluminum Bronze (NAB) were studied by weight-loss measurements and surface characterization using an impingement jet test system. After FSP, the initial coarse microstructure of the cast NAB was transformed to a fine structure, and the porosity defects were eliminated. In addition, different FSP structures were produced by each rotation rate. Microhardness measurements showed a marked increase in FSP samples depending upon the FSP parameters. E–C tests were carried out by erodent at kinetic energies about 0.45μJ and in 30°, 60° and 90° impact angles to simulate actual service conditions. The maximum weight-loss was observed in FSP samples and Scanning Electron Microscopy (SEM) results showed signs of brittle fracture mechanism in FSP samples. By gravimetric analysis, the degree of synergy was evaluated at 0.45μJ kinetic energy at normal impact angle and negative synergy result implies the presence of a protective film on all sample surfaces.
ISSN:0261-3069
DOI:10.1016/j.matdes.2014.05.037