SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT
Following a 25-1 fractional factorial design concept, an experiment was planned ; sixteen experimental mixes were calculated from a basic mix (cement : sand : aggregates : fly ash = 1 : 1.3 : 2.6 : 0.8 and W/C ratio of 0.37) and determined changes (cement = 0.1 ; sand = 0.1 ; aggregates = 0.2 ; fly...
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| Language: | English |
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Petra Christian University
2005-01-01
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| Series: | Civil Engineering Dimension |
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| Online Access: | http://puslit2.petra.ac.id/ejournal/index.php/civ/article/view/16280 |
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doaj-7ebaec3a1b6246f8aa7b447e7da2aaff2020-11-24T22:09:58ZengPetra Christian UniversityCivil Engineering Dimension1410-95301979-570X2005-01-01725760SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENTSalil Kumar RoyHandoko SugihartoAnton KristandoSalim Himawan SFollowing a 25-1 fractional factorial design concept, an experiment was planned ; sixteen experimental mixes were calculated from a basic mix (cement : sand : aggregates : fly ash = 1 : 1.3 : 2.6 : 0.8 and W/C ratio of 0.37) and determined changes (cement = 0.1 ; sand = 0.1 ; aggregates = 0.2 ; fly ash = 0.04 and changing W/C ratio by 0.01) using Taguchiâs orthogonal array. Samples were made from each data point. Compressive strength and water absorption were determined after each of two curing conditions (a) 28 days in the water, (b) 28 days in the water and 32 days in the air after that. Mix no 12 [Cement : Sand : Gravel : Fly Ash = 0.9 : 1.2 : 2.8 : 0.76] was found to have highest compressive strength and lowest water absorption. http://puslit2.petra.ac.id/ejournal/index.php/civ/article/view/16280fractional factorialfly ashwater absorptioncompressive. |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Salil Kumar Roy Handoko Sugiharto Anton Kristando Salim Himawan S |
| spellingShingle |
Salil Kumar Roy Handoko Sugiharto Anton Kristando Salim Himawan S SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT Civil Engineering Dimension fractional factorial fly ash water absorption compressive. |
| author_facet |
Salil Kumar Roy Handoko Sugiharto Anton Kristando Salim Himawan S |
| author_sort |
Salil Kumar Roy |
| title |
SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT |
| title_short |
SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT |
| title_full |
SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT |
| title_fullStr |
SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT |
| title_full_unstemmed |
SYSTEMATIC FORMULATION OF HIGH PERFORMANCE CONCRETE PAVEMENT |
| title_sort |
systematic formulation of high performance concrete pavement |
| publisher |
Petra Christian University |
| series |
Civil Engineering Dimension |
| issn |
1410-9530 1979-570X |
| publishDate |
2005-01-01 |
| description |
Following a 25-1 fractional factorial design concept, an experiment was planned ; sixteen experimental mixes were calculated from a basic mix (cement : sand : aggregates : fly ash = 1 : 1.3 : 2.6 : 0.8 and W/C ratio of 0.37) and determined changes (cement = 0.1 ; sand = 0.1 ; aggregates = 0.2 ; fly ash = 0.04 and changing W/C ratio by 0.01) using Taguchiâs orthogonal array. Samples were made from each data point. Compressive strength and water absorption were determined after each of two curing conditions (a) 28 days in the water, (b) 28 days in the water and 32 days in the air after that. Mix no 12 [Cement : Sand : Gravel : Fly Ash = 0.9 : 1.2 : 2.8 : 0.76] was found to have highest compressive strength and lowest water absorption. |
| topic |
fractional factorial fly ash water absorption compressive. |
| url |
http://puslit2.petra.ac.id/ejournal/index.php/civ/article/view/16280 |
| work_keys_str_mv |
AT salilkumarroy systematicformulationofhighperformanceconcretepavement AT handokosugiharto systematicformulationofhighperformanceconcretepavement AT antonkristando systematicformulationofhighperformanceconcretepavement AT salimhimawans systematicformulationofhighperformanceconcretepavement |
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1725809852265005056 |