Design and construction of an innovative device for corrosion testing of materials in different environments
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Date
2009
Journal Title
Journal ISSN
Volume Title
Publisher
Publishing House of Lviv Polytechnic National University
Abstract
Corrosion is the deterioration of a substance (usually a metal) or its properties because of the reaction with its environment. There are many forms of corrosion, some of which are encountered in everyday life. Direct losses due to corrosion are more than $276 billion dollars
annually = 3.1% of Gross Domestic Product only in the
United States. If we consider the rest of the world this figure would be many times higher. However, corrosion and its control besides of its importance, is often a neglected element in the practice of engineering. This work presents the design of an innovative low cost device to carry out corrosion testing of materials in
different environments. High costs that result from the
fabrication of special probes or devices for testing, make
it an interesting challenge for the engineer or designer. This original and innovative device has been designed accordingly to both the laboratory equipment which will do the characterization and assessment of the corrosion
testing, as well as the “Loop reactor” wher testing will
be carried out in different environments. Розроблено модель дешевого інноваційного приладу для проведення корозійних тестів в різних середовищах. Показано, що цей оригінальний та новітній прилад може використовуватись як лабораторне обладнання для
характеристики і оцінки корозійних тестувань, а також як «петельний реактор», який дає можливість проводити
тестування зразків у різних середовищах.
Description
Keywords
device design, probes, corrosion, industrial design, testing methods, модель приладу, проби, корозія, промислова розробка, випробування
Citation
Garcia-Hernandez F. Design and construction of an innovative device for corrosion testing of materials in different environments / Fernando Garcia-Hernandez, Adrian Oskam, Victor Castano // Chemistry & Chemical Technology. – 2009. – Volume 3, number 4. – P. 301–303. – Bibliography: 20 titles.