FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891883869> ?p ?o ?g. }

• W2891883869 endingPage "444" @default.
• W2891883869 startingPage "429" @default.
• W2891883869 abstract "Introduction. As a result of damage to agricultural and forestry machines from corrosion, the costs of maintaining their performance are increasing. The use of water-soluble inhibitors can slow or halt the destructive process. However, many of the inhibitors have disadvantages, for example, flammability or toxicity. The purpose of this work is to study the protective effectiveness of aqueous solutions of boric acid ester and triethanolamine and to develop recommendations for their use for anticorrosive protection of agricultural and forestry machinery in long-term storage. Materials and Methods. Protective compositions were prepared by dissolving boric acid ester and triethanolamine in distilled and industrial water at room temperature. Aqueous solutions with a concentration of water-soluble inhibitors of 5–50 g/l (0.5–5 mass %) were used for research. The linear polarization resistance method was used to assess their protective efficiency. Solartron (UK) measuring complex was used for electrochemical studies. Accelerated corrosion tests were carried out on steel plates according to GOST 9.054-75 in the g-4 humidistat. The aftereffect of water-soluble corrosion inhibitors was evaluated by the residual film protective efficiency. Results. The influence of the concentration of the ester of boric acid and triethanolamine in aqueous solutions for their protective properties is studied. It was found that boric acid and triethanolamine slow the anode reaction. The analysis of the research results has showed that the corrosion rate of the steel electrode decreases with increasing the concentration of water-soluble inhibitor in process water. This decrease is the most noticeable when the concentration in the range of 10–50 g/l with an increase in the concentration in the solution of boric acid and triethanolamine to 50 g/l, their protective efficiency varies by 6–14 %. The optimal concentration of the inhibitor in the composition is obtained, which is 10 g/l during corrosion tests of steel plates, the protective efficiency of the solution with a concentration of 10 g/l of the water-soluble inhibitor was more than 70 %. In case of precipitation on the samples, the protective efficiency of the solutions decreased to 20–25 %. When tested in a closed unheated room on steel samples during the year there were no traces of corrosion. Conclusions. The study demonstrates that boric acid and triethanolamine is a watersoluble inhibitor of anodic corrosion. When the concentration of water-soluble inhibitor in process water increases, the corrosion rate of the steel electrode decreases. Optimum concentration of ester of boric acid and triethanolamine in the protective solution should be 10 g/l. For corrosion tests of steel plates, the shielding effectiveness of a solution of water- soluble inhibitor was more than 70 %. In the conditions of direct exposure to atmospheric precipitation on the samples of the protective efficiency of the solutions decreased to 20–25 %. When tested in a closed unheated room on steel samples there were no traces of corrosion during the year. Thus, the ester of boric acid and triethanolamine is effective to protect against atmospheric corrosion in a closed room. it Is recommended to apply it for protecting cars against corrosion at short-term storage on open platforms. The application field of water-soluble inhibitor when agricultural and forestry machines are retained for long-term storage is defined; combine stages of cleaning cars from pollution and preserving their surfaces for protection against corrosion are offered. The article will be useful to specialists in the field of protection of agricultural machinery from corrosion." @default.
• W2891883869 created "2018-09-27" @default.
• W2891883869 creator A5049872316 @default.
• W2891883869 creator A5053713702 @default.
• W2891883869 creator A5063339527 @default.
• W2891883869 creator A5083141239 @default.
• W2891883869 date "2018-09-20" @default.
• W2891883869 modified "2023-09-27" @default.
• W2891883869 title "Protective Efficiency of Water-Soluble Corrosion Inhibitors" @default.
• W2891883869 cites W2407910793 @default.
• W2891883869 cites W2551631932 @default.
• W2891883869 cites W2587801194 @default.
• W2891883869 cites W2978630933 @default.
• W2891883869 cites W2981790900 @default.
• W2891883869 cites W3011878201 @default.
• W2891883869 cites W4235897778 @default.
• W2891883869 doi "https://doi.org/10.15507/0236-2910.028.201803.429-444" @default.
• W2891883869 hasPublicationYear "2018" @default.
• W2891883869 type Work @default.
• W2891883869 sameAs 2891883869 @default.
• W2891883869 citedByCount "3" @default.
• W2891883869 countsByYear W28918838692020 @default.
• W2891883869 countsByYear W28918838692021 @default.
• W2891883869 countsByYear W28918838692022 @default.
• W2891883869 crossrefType "journal-article" @default.
• W2891883869 hasAuthorship W2891883869A5049872316 @default.
• W2891883869 hasAuthorship W2891883869A5053713702 @default.
• W2891883869 hasAuthorship W2891883869A5063339527 @default.
• W2891883869 hasAuthorship W2891883869A5083141239 @default.
• W2891883869 hasBestOaLocation W28918838691 @default.
• W2891883869 hasConcept C113196181 @default.
• W2891883869 hasConcept C13965031 @default.
• W2891883869 hasConcept C178790620 @default.
• W2891883869 hasConcept C184651966 @default.
• W2891883869 hasConcept C185592680 @default.
• W2891883869 hasConcept C191897082 @default.
• W2891883869 hasConcept C192562407 @default.
• W2891883869 hasConcept C20625102 @default.
• W2891883869 hasConcept C2775897365 @default.
• W2891883869 hasConcept C2776839515 @default.
• W2891883869 hasConcept C2777145204 @default.
• W2891883869 hasConcept C2779429693 @default.
• W2891883869 hasConcept C43617362 @default.
• W2891883869 hasConcept C88380143 @default.
• W2891883869 hasConceptScore W2891883869C113196181 @default.
• W2891883869 hasConceptScore W2891883869C13965031 @default.
• W2891883869 hasConceptScore W2891883869C178790620 @default.
• W2891883869 hasConceptScore W2891883869C184651966 @default.
• W2891883869 hasConceptScore W2891883869C185592680 @default.
• W2891883869 hasConceptScore W2891883869C191897082 @default.
• W2891883869 hasConceptScore W2891883869C192562407 @default.
• W2891883869 hasConceptScore W2891883869C20625102 @default.
• W2891883869 hasConceptScore W2891883869C2775897365 @default.
• W2891883869 hasConceptScore W2891883869C2776839515 @default.
• W2891883869 hasConceptScore W2891883869C2777145204 @default.
• W2891883869 hasConceptScore W2891883869C2779429693 @default.
• W2891883869 hasConceptScore W2891883869C43617362 @default.
• W2891883869 hasConceptScore W2891883869C88380143 @default.
• W2891883869 hasIssue "3" @default.
• W2891883869 hasLocation W28918838691 @default.
• W2891883869 hasOpenAccess W2891883869 @default.
• W2891883869 hasPrimaryLocation W28918838691 @default.
• W2891883869 hasRelatedWork W1988255898 @default.
• W2891883869 hasRelatedWork W2055570141 @default.
• W2891883869 hasRelatedWork W2169750897 @default.
• W2891883869 hasRelatedWork W2269207819 @default.
• W2891883869 hasRelatedWork W2367285788 @default.
• W2891883869 hasRelatedWork W2369859031 @default.
• W2891883869 hasRelatedWork W2379598264 @default.
• W2891883869 hasRelatedWork W2387000467 @default.
• W2891883869 hasRelatedWork W2555436101 @default.
• W2891883869 hasRelatedWork W2891883869 @default.
• W2891883869 hasVolume "28" @default.
• W2891883869 isParatext "false" @default.
• W2891883869 isRetracted "false" @default.
• W2891883869 magId "2891883869" @default.
• W2891883869 workType "article" @default.