3 research outputs found
Corrosi贸n del acero inoxidable 304 como refuerzo en concreto expuesto a cloruros y sulfatos
Get PDFSe evalu贸 la corrosi贸n del acero inoxidable 304 y el acero 1018, embebidos en especimenes de concreto elaborados en base a las normas ASTM C470-87 y C192-81. Se elaboraron concretos de relaci贸n a/c, 0.45 y 0.65. Los especimenes estuvieron expuestos 66 semanas en dos medios agresivos, soluciones al 3.5 % de NaCl y 3.5% de Na2SO4. La evaluaci贸n fue mediante la t茅cnica de Resistencia a la Polarizaci贸n (Rp), medici贸n del potencial de corrosi贸n (Ecorr), norma ASTM C-876-91. Los resultados demuestran una resistencia a la corrosi贸n del acero 304 en ambos medios muy superior a la del acero 101
Corrosi贸n del acero inoxidable 304 como refuerzo en concreto expuesto a cloruros y sulfatos
Get PDFSe evalu贸 la corrosi贸n del acero inoxidable 304 y el acero 1018, embebidos en especimenes de concreto elaborados en base a las normas ASTM C470-87 y C192-81. Se elaboraron concretos de relaci贸n a/c, 0.45 y 0.65. Los especimenes estuvieron expuestos 66 semanas en dos medios agresivos, soluciones al 3.5 % de NaCl y 3.5% de Na2SO4. La evaluaci贸n fue mediante la t茅cnica de Resistencia a la Polarizaci贸n (Rp), medici贸n del potencial de corrosi贸n (Ecorr), norma ASTM C-876-91. Los resultados demuestran una resistencia a la corrosi贸n del acero 304 en ambos medios muy superior a la del acero 101
Electrochemical Corrosion of Galvanized Steel in Binary Sustainable Concrete Made with Sugar Cane Bagasse Ash (SCBA) and Silica Fume (SF) Exposed to Sulfates
No full textThis research evaluates the behavior corrosion of galvanized steel (GS) and AISI 1018 carbon steel (CS) embedded in conventional concrete (CC) made with 100% CPC 30R and two binary sustainable concretes (BSC1 and BSC2) made with sugar cane bagasse ash (SCBA) and silica fume (SF), respectively, after 300 days of exposure to 3.5 wt.% MgSO4 solution as aggressive medium. Electrochemical techniques were applied to monitor corrosion potential (Ecorr) according to ASTM C-876-15 and linear polarization resistance (LPR) according to ASTM G59 for determining corrosion current density (icorr). Ecorr and icorr results indicate after more than 300 days of exposure to the sulfate environment (3.5 wt.% MgSO4 solution), that the CS specimens embedded in BSC1 and BSC2 presented greater protection against corrosion in 3.5 wt.% MgSO4 than the specimens embedded in CC. It was also shown that this protection against sulfates is significantly increased when using GS reinforcements. The results indicate a higher resistance to corrosion by exposure to 3.5 wt.% magnesium sulfate two times greater for BSC1 and BSC2 specimens reinforced with GS than the specimens embedding CS. In summary, the combination of binary sustainable concrete with galvanized steel improves durability and lifetime in service, in addition to reducing the environmental impact of the civil engineering structures
