F. Brownlie scite author profile

This study compares Hot Wire Tungsten Inert Gas Stellite 6 weld cladding on a low carbon steel substrate with a lost wax cast Stellite 6 in impingement erosion-corrosion conditions. Austenitic stainless steel samples were used as a reference material. Tests were conducted in a closed loop impinged slurry vessel with a jet velocity of 18m/s with 3.5%NaCl aqueous solution containing 500 micron spherical silica sand particles (0.5g/l sand concentration). The testing temperature was 40°C. Mass loss measurements and a volumetric analysis as well as microstructural evaluation were used as post-test analysis techniques. Results showed that weld cladding and lost wax cast Stellite 6 performed better than the stainless steel, with the weld cladding marginally outperforming the lost wax cast technique.

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Effect of nitriding on the corrosive wear performance of a single and double layer Stellite 6 weld cladding

Brownlie

Hodgkiess²,

Pearson³

et al. 2017

Wear

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This study investigates the corrosive wear behaviour of single and double layer Stellite 6 (UNS R30006) weld claddings and the effectiveness of nitriding on their erosion-corrosion resistance. Tests were conducted by utilising an impinging slurry jet. The slurry consisted of 3.5% NaCl aqueous solution which contained 500 µm spherical silica sand with a concentration of 2.4 g/l. The velocity of the jet was 18 m/s and the testing temperature ranged from 16–27°C. The erosion-corrosion tests were conducted at low angle (20°) and at normal incidence (90°). Mass losses, wear scar depths and a volumetric analysis technique were used to assess the damage in the Direct Impinged Zone (DIZ) and the Outer Area (OA) of the specimens. Electrochemical monitoring was also utilised to assess the inherent corrosion resistance of the materials. Although nitriding was found to reduce the pure corrosion resistance of the Stellite 6 weld claddings and did not appear to affect the 90° direct impingement damage, nitriding did yield benefits in terms of low angle sliding abrasion resistance

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Effect of cathodic protection methods on ferrous engineering materials under corrosive wear conditions

Brownlie

Giourntas

Hodgkiess³

et al. 2020

Corrosion Engineering, Science and Technology

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Cathodic protection prolongs the service life of fluid transport and offshore engineering components by suppressing corrosion. This study assesses the effect of two cathodic protection methods; impressed current cathodic protection (ICCP) and sacrificial anode cathodic protection (SACP), to three ferrous-based materials in laboratory controlled corrosive wear conditions. The SACP was as effective as ICCP on protection of the low alloy steel and white chromium cast iron under both solid and solid-free corrosive wear conditions. Under solid-liquid impingement, significant reductions in material loss were also observed in both the direct impingement zone and the outer area (oblique angle of attack). This demonstrates the substantial impact of cathodic protection systems that are exposed in erosion-corrosion dominated environments.

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Effect of salinity on the corrosive wear behaviour of engineering steels in aqueous solutions

Smith

Brownlie

Hodgkiess

et al. 2020

Wear

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The effect of salinity is assessed on the corrosive wear behaviour of a low-alloy steel (UNS G43400) and three stainless steels (UNS S15500, UNS S31600 and UNS S32760). Erosion-corrosion testing was conducted using a submerged impingement slurry jet test-rig. Three salinities were evaluated; 0.05%NaCl, 3.5%NaCl and 10%NaCl. Total volume losses (TVL) and a volumetric analysis technique were used to assess the damage in the directly-impinged zone (DIZ) and outer area (OA). Under all measured parameters, material loss for the stainless steels increased marginally with increased salinity. In terms of TVL and OA volume loss, the low alloy steel exhibited significantly greater material loss from 0.05%NaCl to 3.5%NaCl conditions, however, no further increase was evident when the salinity was raised to 10%NaCl.

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A study on the erosion-corrosion behaviour of engineering materials used in the geothermal industry

Brownlie

Hodgkiess²,

Pearson³

et al. 2021

Wear

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F. Brownlie

Comparison of Hot Wire TIG Stellite 6 weld cladding and lost wax cast Stellite 6 under corrosive wear conditions

Effect of nitriding on the corrosive wear performance of a single and double layer Stellite 6 weld cladding

Effect of cathodic protection methods on ferrous engineering materials under corrosive wear conditions

Effect of salinity on the corrosive wear behaviour of engineering steels in aqueous solutions

A study on the erosion-corrosion behaviour of engineering materials used in the geothermal industry

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