Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate
The optimum mix design of slag in concrete is one of the best ways of identifying which mixture will yield high compressive strength without compromising good behavior and the significance of each variable in every compressive strength test when a certain percentage of slag is being mixed in the con...
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oai:animorepository.dlsu.edu.ph:faculty_research-24922021-06-30T00:32:00Z Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate Regulacion, Rhea Espinosa Oreta, Andres Winston C. The optimum mix design of slag in concrete is one of the best ways of identifying which mixture will yield high compressive strength without compromising good behavior and the significance of each variable in every compressive strength test when a certain percentage of slag is being mixed in the concrete. To determine the mix design that will yield the optimum compressive concrete strength, the response surface methodology (RSM) is explored in this study. RSM is an optimization tool explored in the study because it interprets experimental results even in a non-linear response surface manner and it provides sufficient experimental interpretation as part of the conclusive result [1]. It has modern optimization features that can be useful in the most complicated experimental design. Its most important applications are in the fields where variables have potential significance in predicting the system behavior called the response. The combination of factorial application and modern experimental design has an outstanding contribution in optimizing experimental procedures in a reduced number of studies and the response is easy to interpret. RSM was used on the data obtained from laboratory experiments conducted by the researchers. The experiments conducted include the influencing factors: slag percentage (50%, 75%, and 100%), curing period (14 days, 21 days, and 28 days), and types of cement (1P, I, and IP), and the interaction effects of these factors in the compressive strength test are analyzed in this paper using response surface methodology. The responses of each specimen have shown a significant increase in the strength attained with respect to the control specimens. © Civil-Comp Press, 2013. 2013-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/1493 Faculty Research Work Animo Repository Slag—Compression testing Aggregates (Building materials) Civil Engineering |
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Slag—Compression testing Aggregates (Building materials) Civil Engineering Regulacion, Rhea Espinosa Oreta, Andres Winston C. Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate |
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The optimum mix design of slag in concrete is one of the best ways of identifying which mixture will yield high compressive strength without compromising good behavior and the significance of each variable in every compressive strength test when a certain percentage of slag is being mixed in the concrete. To determine the mix design that will yield the optimum compressive concrete strength, the response surface methodology (RSM) is explored in this study. RSM is an optimization tool explored in the study because it interprets experimental results even in a non-linear response surface manner and it provides sufficient experimental interpretation as part of the conclusive result [1]. It has modern optimization features that can be useful in the most complicated experimental design. Its most important applications are in the fields where variables have potential significance in predicting the system behavior called the response. The combination of factorial application and modern experimental design has an outstanding contribution in optimizing experimental procedures in a reduced number of studies and the response is easy to interpret. RSM was used on the data obtained from laboratory experiments conducted by the researchers. The experiments conducted include the influencing factors: slag percentage (50%, 75%, and 100%), curing period (14 days, 21 days, and 28 days), and types of cement (1P, I, and IP), and the interaction effects of these factors in the compressive strength test are analyzed in this paper using response surface methodology. The responses of each specimen have shown a significant increase in the strength attained with respect to the control specimens. © Civil-Comp Press, 2013. |
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Regulacion, Rhea Espinosa Oreta, Andres Winston C. |
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Regulacion, Rhea Espinosa Oreta, Andres Winston C. |
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Regulacion, Rhea Espinosa |
| title |
Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate |
| title_short |
Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate |
| title_full |
Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate |
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Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate |
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Application of response surface methodology: Optimum mix design of concrete with slag as coarse aggregate |
| title_sort |
application of response surface methodology: optimum mix design of concrete with slag as coarse aggregate |
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Animo Repository |
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2013 |
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https://animorepository.dlsu.edu.ph/faculty_research/1493 |
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