{"http:\/\/lib.itenas.ac.id\/kti\/?p=4409":{"http:\/\/www.w3.org\/1999\/02\/22-rdf-syntax-ns#type":[{"type":"uri","value":"http:\/\/rdfs.org\/sioc\/ns#Post"},{"type":"uri","value":"http:\/\/rdfs.org\/sioc\/types#BlogPost"}],"http:\/\/purl.org\/dc\/elements\/1.1\/title":[{"type":"literal","value":"MBS as a Potential Cement Replacement Material in Recycled Aggregate Concrete"}],"http:\/\/purl.org\/dc\/terms\/identifier":[{"type":"literal","value":"4409","datatype":"http:\/\/www.w3.org\/2001\/XMLSchema#integer"}],"http:\/\/purl.org\/dc\/elements\/1.1\/modified":[{"type":"literal","value":"2015-05-18","datatype":"http:\/\/www.w3.org\/2001\/XMLSchema#date"}],"http:\/\/purl.org\/dc\/elements\/1.1\/created":[{"type":"literal","value":"2015-05-18","datatype":"http:\/\/www.w3.org\/2001\/XMLSchema#date"}],"http:\/\/rdfs.org\/sioc\/ns#link":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?p=4409"}],"http:\/\/rdfs.org\/sioc\/ns#has_creator":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?author=6#account"}],"http:\/\/rdfs.org\/sioc\/ns#has_container":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/#posts"}],"http:\/\/purl.org\/dc\/elements\/1.1\/abstract":[{"type":"literal","value":""}],"http:\/\/purl.org\/rss\/1.0\/modules\/content\/encoded":[{"type":"literal","value":"Dibuat Oleh \u00a0:\u00a0Adnan, Suraya Hani, Lee, Yee Loon, Abdul Rahman, Ismail, Mohd Saman, Hamidah, Soejoso, Mia Wimala\u00a0<\/strong>\r\n\r\nAlamat e-mail :\u00a0miasoejoso@gmail.com\r\nKata Kunci :<\/strong>Recycled Aggregate Concrete, Recycled Aggregate, Micronised Biomass Silica, Compressive Strength\r\n\r\n Keterangan :\u00a0\u00a0Karya Ilmiah ini dimuat pada \u00a0Proceeding of BICET 2008, 21st Century: Challenges in Engineering and Technology, Brunei Darussalam. 2008.<\/strong>\r\n\r\nMBS as a Potential Cement Replacement Material in Recycled Aggregate Concrete<\/a>]]>","datatype":"http:\/\/www.w3.org\/1999\/02\/22-rdf-syntax-ns#XMLLiteral"}],"http:\/\/rdfs.org\/sioc\/ns#content":[{"type":"literal","value":"Recycled Aggregate Concrete (RAC) was known as concrete which used partly or fully waste\u00a0material as coarse or fine aggregate. This concrete was identified to have a lower compressive\u00a0strength than Normal Aggregate Concrete (NAC). As alternative, Micronised Biomass Silica\u00a0(MBS) was applied as cement replacement material in concrete mixes. This is as an effort to\u00a0increase the compressive strength of RAC. For this study, MBS was used at 0%, 4%, 8% and\u00a012% was used as cement replacement material. Meanwhile, Recycled Aggregate (RA) from\u00a0waste cube concrete was used to replace a normal aggregate as coarse aggregate at various\u00a0percentages (0%, 25%, 50%, 75% and 100%). The results showed that compressive strength of\u00a0the RAC at all ages were lower than control concrete. Also, it was found that RAC that contains\u00a0MBS attained higher compressive strength than RAC with 0% MBS\r\n\r\nDibuat Oleh \u00a0:\u00a0Adnan, Suraya Hani, Lee, Yee Loon, Abdul Rahman, Ismail, Mohd Saman, Hamidah, Soejoso, Mia Wimala\u00a0\r\n\r\nAlamat e-mail :\u00a0miasoejoso@gmail.com\r\nKata Kunci :Recycled Aggregate Concrete, Recycled Aggregate, Micronised Biomass Silica, Compressive Strength\r\n\r\n Keterangan :\u00a0\u00a0Karya Ilmiah ini dimuat pada \u00a0Proceeding of BICET 2008, 21st Century: Challenges in Engineering and Technology, Brunei Darussalam. 2008.\r\n\r\nMBS as a Potential Cement Replacement Material in Recycled Aggregate Concrete"}],"http:\/\/rdfs.org\/sioc\/ns#topic":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=118"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=145"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=compressive-strength"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=micronised-biomass-silica"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=recycled-aggregate"},{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=recycled-aggregate-concrete"}],"http:\/\/rdfs.org\/sioc\/ns#attachment":[{"type":"uri","value":"http:\/\/lib.itenas.ac.id\/kti\/wp-content\/uploads\/2015\/05\/09-MBS.pdf"}]},"https:\/\/lib.itenas.ac.id\/kti\/?author=6#account":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?author=6&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?cat=118":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=118&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?cat=145":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?cat=145&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=compressive-strength":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=compressive-strength&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=micronised-biomass-silica":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=micronised-biomass-silica&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=recycled-aggregate":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=recycled-aggregate&feed=lhrdf&format=json"}]},"https:\/\/lib.itenas.ac.id\/kti\/?tag=recycled-aggregate-concrete":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?tag=recycled-aggregate-concrete&feed=lhrdf&format=json"}]},"http:\/\/lib.itenas.ac.id\/kti\/wp-content\/uploads\/2015\/05\/09-MBS.pdf":{"http:\/\/www.w3.org\/2000\/01\/rdf-schema#seeAlso":[{"type":"uri","value":"https:\/\/lib.itenas.ac.id\/kti\/?attachment_id=4475&feed=lhrdf&format=json"}]}}