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Rebecca Schaller
University of British Columbia
25Publications
9H-index
262Citations
Publications 25
Newest
Published on 2019in Corrosion1.86
Hongxing Liang (UBC: University of British Columbia), Rebecca Schaller9
Estimated H-index: 9
(UBC: University of British Columbia),
Edouard Asselin15
Estimated H-index: 15
(UBC: University of British Columbia)
The effect of pre-deformation on corrosion of ASTM−A106B pipeline steel exposed to 1.7 mM sodium chloride droplets covered by simulated diluted bitumen was evaluated. The microstructures of ASTMâ...
Published on May 11, 2019in Corrosion1.86
Hongxing Liang (UBC: University of British Columbia), Rebecca Schaller9
Estimated H-index: 9
(UBC: University of British Columbia),
Edouard Asselin15
Estimated H-index: 15
(UBC: University of British Columbia)
The corrosive environment expected to form in diluted bitumen pipelines was explored by simulated exposure with a paraffin oil covered chloride droplet on API-X100 pipeline steel. The effects of dr...
Published on Jan 1, 2019in Journal of The Electrochemical Society3.12
Y. Liu1
Estimated H-index: 1
,
Rebecca Schaller9
Estimated H-index: 9
+ 0 AuthorsE. Asselin1
Estimated H-index: 1
Published on Sep 1, 2018in Corrosion1.86
Hongxing Liang (UBC: University of British Columbia), Jing Liu4
Estimated H-index: 4
(UBC: University of British Columbia)
+ 1 AuthorsEdouard Asselin15
Estimated H-index: 15
(UBC: University of British Columbia)
A 1.7 mM NaCl droplet on X100 pipeline steel covered by paraffin oil is used to simulate the corrosive environment encountered in heavy oil or bitumen pipelines. The development of corrosion under the droplet was monitored and explored in two stages. In the initial stage (1 h), the distribution of corrosion pits was heterogeneous with one area under the droplet presenting a higher pit density. As the corrosion proceeded (24 h), the localized corrosion in the area under the droplet with the highe...
Published on Dec 1, 2017
Rebecca Schaller9
Estimated H-index: 9
(SNL: Sandia National Laboratories),
Carlos F. Jove-Colon6
Estimated H-index: 6
(SNL: Sandia National Laboratories)
+ 1 AuthorsEric Schindelholz8
Estimated H-index: 8
(SNL: Sandia National Laboratories)
Aluminum and aluminum alloys are widely used in many outdoor applications due to their inherent corrosion resistance attributed to the formation of a protective oxide layer. While corrosion rates are generally considered low for aluminum in many atmospheric environments, understanding of the corrosion performance over time is necessary to predict the cost, safety, and esthetics of these materials. The vast majority of the knowledgebase of atmospheric aluminum corrosion is built on environment–re...
Published on Sep 1, 2017
Tim Weirich (OSU: Ohio State University), Rebecca Schaller9
Estimated H-index: 9
+ 2 AuthorsJenifer S. (Warner) Locke3
Estimated H-index: 3
(OSU: Ohio State University)
Published on Jul 1, 2017in Corrosion1.86
Rebecca Schaller9
Estimated H-index: 9
,
Jason M. Taylor3
Estimated H-index: 3
+ 1 AuthorsEric Schindelholz8
Estimated H-index: 8
The corrosion susceptibility of a laser powder bed fusion (LPBF) additively manufactured alloy, UNS S17400 (17-4 PH), was explored compared to conventional wrought material. Microstructural characteristics were characterized and related to corrosion behavior in quiescent, aqueous 0.6 M NaCl solutions. Electrochemical measurements demonstrated that the LPBF 17-4 PH alloy exhibited a reduced passivity range and active corrosion compared to its conventional wrought counterpart. A microelectrochemic...
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