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Impact of the use of alternative fuels on clinker reactivity
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| Zeitschriftentitel: | Materiales de Construcción |
|---|---|
| Personen und Körperschaften: | , , |
| In: | Materiales de Construcción, 67, 2017, 326, S. 120 |
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Editorial CSIC
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Serrano-González, K. Reyes-Valdez, A. Chowaniec, O. Serrano-González, K. Reyes-Valdez, A. Chowaniec, O. |
|---|---|
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Serrano-González, K. Reyes-Valdez, A. Chowaniec, O. |
| spellingShingle |
Serrano-González, K. Reyes-Valdez, A. Chowaniec, O. Materiales de Construcción Impact of the use of alternative fuels on clinker reactivity Mechanics of Materials General Materials Science Building and Construction |
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serrano-gonzález, k. |
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Serrano-González, K. Reyes-Valdez, A. Chowaniec, O. 1988-3226 0465-2746 Editorial CSIC Mechanics of Materials General Materials Science Building and Construction http://dx.doi.org/10.3989/mc.2017.08215 <jats:p>The use of alternative fuels in the cement industry has increased its relevance in the past decades due to their ecological and economic benefits. In concert with the efforts to increase its use, several studies have focused on their potential impact with respect to clinker reactivity and how they could affect the expected physical and mechanical properties. This work studied the effects of five alternative fuels on the reactivity of eight industrial clinker samples, considering several analytical techniques. Differences were identified among the clinker samples after replacing the alternative fuels, mainly with simultaneous eliminations, as in samples S4, S5 and S8. The modifications were related to the polymorph, size and reactivity of tricalcium silicate and to the clinker profile during the hydration process, due to the SO3 consumption rate. These changes were expressed in the higher compressive strengths in comparison with the original reference clinker.</jats:p> Impact of the use of alternative fuels on clinker reactivity Materiales de Construcción |
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Impact of the use of alternative fuels on clinker reactivity |
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Impact of the use of alternative fuels on clinker reactivity |
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Impact of the use of alternative fuels on clinker reactivity |
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Impact of the use of alternative fuels on clinker reactivity |
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Impact of the use of alternative fuels on clinker reactivity |
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Impact of the use of alternative fuels on clinker reactivity |
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impact of the use of alternative fuels on clinker reactivity |
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Mechanics of Materials General Materials Science Building and Construction |
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2017 |
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<jats:p>The use of alternative fuels in the cement industry has increased its relevance in the past decades due to their ecological and economic benefits. In concert with the efforts to increase its use, several studies have focused on their potential impact with respect to clinker reactivity and how they could affect the expected physical and mechanical properties. This work studied the effects of five alternative fuels on the reactivity of eight industrial clinker samples, considering several analytical techniques. Differences were identified among the clinker samples after replacing the alternative fuels, mainly with simultaneous eliminations, as in samples S4, S5 and S8. The modifications were related to the polymorph, size and reactivity of tricalcium silicate and to the clinker profile during the hydration process, due to the SO3 consumption rate. These changes were expressed in the higher compressive strengths in comparison with the original reference clinker.</jats:p> |
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| description | <jats:p>The use of alternative fuels in the cement industry has increased its relevance in the past decades due to their ecological and economic benefits. In concert with the efforts to increase its use, several studies have focused on their potential impact with respect to clinker reactivity and how they could affect the expected physical and mechanical properties. This work studied the effects of five alternative fuels on the reactivity of eight industrial clinker samples, considering several analytical techniques. Differences were identified among the clinker samples after replacing the alternative fuels, mainly with simultaneous eliminations, as in samples S4, S5 and S8. The modifications were related to the polymorph, size and reactivity of tricalcium silicate and to the clinker profile during the hydration process, due to the SO3 consumption rate. These changes were expressed in the higher compressive strengths in comparison with the original reference clinker.</jats:p> |
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| spelling | Serrano-González, K. Reyes-Valdez, A. Chowaniec, O. 1988-3226 0465-2746 Editorial CSIC Mechanics of Materials General Materials Science Building and Construction http://dx.doi.org/10.3989/mc.2017.08215 <jats:p>The use of alternative fuels in the cement industry has increased its relevance in the past decades due to their ecological and economic benefits. In concert with the efforts to increase its use, several studies have focused on their potential impact with respect to clinker reactivity and how they could affect the expected physical and mechanical properties. This work studied the effects of five alternative fuels on the reactivity of eight industrial clinker samples, considering several analytical techniques. Differences were identified among the clinker samples after replacing the alternative fuels, mainly with simultaneous eliminations, as in samples S4, S5 and S8. The modifications were related to the polymorph, size and reactivity of tricalcium silicate and to the clinker profile during the hydration process, due to the SO3 consumption rate. These changes were expressed in the higher compressive strengths in comparison with the original reference clinker.</jats:p> Impact of the use of alternative fuels on clinker reactivity Materiales de Construcción |
| spellingShingle | Serrano-González, K., Reyes-Valdez, A., Chowaniec, O., Materiales de Construcción, Impact of the use of alternative fuels on clinker reactivity, Mechanics of Materials, General Materials Science, Building and Construction |
| title | Impact of the use of alternative fuels on clinker reactivity |
| title_full | Impact of the use of alternative fuels on clinker reactivity |
| title_fullStr | Impact of the use of alternative fuels on clinker reactivity |
| title_full_unstemmed | Impact of the use of alternative fuels on clinker reactivity |
| title_short | Impact of the use of alternative fuels on clinker reactivity |
| title_sort | impact of the use of alternative fuels on clinker reactivity |
| title_unstemmed | Impact of the use of alternative fuels on clinker reactivity |
| topic | Mechanics of Materials, General Materials Science, Building and Construction |
| url | http://dx.doi.org/10.3989/mc.2017.08215 |