PERILAKU HUBUNGAN BALOK-KOLOM EKSTERIOR BETON NORMAL, MUTU TINGGI, & BUBUK REAKTIF DENGAN BEBAN LATERAL SIKLIK (104S)

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(1)Struktur. PERILAKU HUBUNGAN BALOK-KOLOM EKSTERIOR BETON NORMAL, MUTU TINGGI, & BUBUK REAKTIF DENGAN BEBAN LATERAL SIKLIK (104S) Pio Ranap Tua Naibaho1, Bambang Budiono2, Awal Surono3 dan Ivindra Pane4 1. Mahasiswa Program Doktor, Program Studi Teknik Sipil, FTSL, ITB, Jl.Ganesa No.10 Bandung 40132, Staff Pengajar, Program Studi Teknik Sipil, FT, Universitas Tama Jagakarsa, Jl. TB. Simatupang No.152 Tanjung Barat, Jakarta Selatan 12530 Email: [email protected] 2 Staft Pengajar KK-Struktur, Program Studi Teknik Sipil, FTSL, ITB, Jl. Ganesa No.10 Bandung 40132 Email: [email protected] 3 Staft Pengajar KK-Struktur, Program Studi Teknik Sipil, FTSL, ITB, Jl. Ganesa No.10 Bandung 40132 Email : [email protected] 4 Staft Pengajar KK-Struktur, Program Studi Teknik Sipil, FTSL, ITB, Jl. Ganesa No.10 Bandung 40132 Email : ivpane@ si.itb.ac.id. ABSTRAK Salah satu terobosan baru dalam bidang teknologi material beton adalah Beton Bubuk Reaktif (Reactive Powder Concrete) dengan kinerja sangat tinggi dibanding beton konvensional. Komponen penyusunnya adalah powder sangat halus yang memiliki kandungan silika tinggi. Hal ini bertujuan untuk menyempurnakan reaksi yang terjadi pada beton dan meningkatkan homogenitas beton. Bubuk beton reaktif terdiri dari semen, silica fume, kuarsa dengan diameter maksimum 600 μm, superplasticizer dan steel fibre untuk meningkatkan daktilitas. Kajian ini dimaksudkan untuk mengetahui keandalan penggunaan beton bubuk reaktif dalam meningkatkan kinerja hubungan balok-kolom dalam menahan beban lateral siklik yang memiliki peluang yang sangat besar untuk material konstruksi di Indonesia, mengingat banyaknya tersedia material kuarsa. Kajian dilakukan secara numerik menggunakan formulasi metode elemen hingga nonlinier material terhadap hubungan balok-kolom eksterior. Masing-masing benda uji menggunakan beton normal (fc’=30 MPa), beton mutu tinggi (fc’=70 MPa) dan beton bubuk reaktif (fc’=100 MPa) dengan ukuran kolom 300 mm x 300 mm dan balok 200 mm x 300 mm. Pembebanan yang diberikan berupa beban lateral siklik. Beton dimodelkan dengan elemen solid 3 dimensi 8 titik nodal dan baja tulangan dimodelkan dengan elemen batang 2 titik nodal. Untuk tiap nodal terdapat 3 perpindahan translasi. Baja tulangan menggunakan model discrete yang terletak dalam elemen beton. Model konstitutif beton normal, beton mutu tinggi dan beton bubuk reaktif diadopsi dan dimodifikasi dari hasil penelitian sebelumnya. Berdasarkan hasil pengujian yang berupa kurva beban-perpindahan dan distribusi tegangan, dapat disimpulkan bahwa penggunaan beton bubuk reaktif dapat meningkatkan kekuatan, kekakuan dan daktilitas elemen struktur beton bertulang dibandingkan dengan beton mutu tinggi dan beton normal. Kata kunci: beton normal, bubuk reaktif, hubungan balok-kolom, mutu tinggi, nonlinier material.. 1.. PENDAHULUAN. ).9.5 ?.@A @2></<?.; /.>A 1.9.: /61.;4 @28;<9<46 :.@2>6.9 /2@<; .1.9.5 (* #+& #"&( (&. $.@2>6.9 6;6 =2>@.:. 8.96 1682:/.;48.; =.1. .C.9 @.5A;

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(147) Struktur. .:/.> "<;16?6 + + 1.;+ =.1. &(&(# . .:/.> "A>B.2;B29<=25A/A;4.; /2/.;9.@2>.9 =2>=6;1.5.; .>64.:/.> @2>965.@/.5C.82>A;@A5.;@2>02=.@@2>7.16=.1. /2;1.A76 [email protected] &(&(# 1<><;4 1.; &(&(# @.>6816?A?A9 /2;1.A76 [email protected] &(&(# 1<><;41.; &(&(# @.>68 ?21.;48.;=.1. /2;1.A76 [email protected] &(&(# 1<><;41.; &(&(# @.>68 8.;@2@.=6=.1. /2;1.A76 /2/.;D.;41.=.@[email protected].;92/65/2?.> 16/.;16;48.;12;4.; /2;1.A76 . 5.. KESIMPULAN. &2;44A;..; /2@<; /A/A8 >2.8@63 =.1. 5A/A;4.; /.9<8 8<9<: /2;1. A76 :2:/2>68.; 5.?69 828A.@.; 1.8@696@.??2>@.6;128?2328@63=2;428.;4.; D.;492/65/.68 16/.;16;48.;12;4.; /2;1.A76 :.A=A;/2;1. A76 . Konferensi Nasional Teknik Sipil 7 (KoNTekS 7) Universitas Sebelas Maret (UNS) - Surakarta, 24-26 Oktober 2013. S - 121.

(148) Struktur. 2/.; D.;4 1.=.@ [email protected].; /2;1. A76 ?2/2?.> 1.; /2;1. A76 ?2/2?.> 16/.;16;48.; 12;4.; /2;1. A76 A;@A8 4.D. 1<><;4 +;@A8 4.D. @.>68 1.=.@ :2;.5.; /2/.; =.1. /2;1. A76 ?2/2?.> 1.;/2;1.A76 ?2/2?.>16/.;16;48.;12;4.;/2;1.A76 . DAFTAR PUSTAKA (DAN PENULISAN PUSTAKA) ACI 318-08, (2008), Building Codes Requirement for Structural Concrete and Commentary, ACI Committee. Aitcin, P.C., (2008), ”Binder for durable and sustainable concrete”, Modern Concrete Technology Series, ISBN 0203-94048-2, Taylor & Francis Group, London and New York. ASCE 7-05, (2005), Minimum Design Loads for Buildings and Other Structures, ASCE. ASTM, Concrete and Aggregates (2005), Annual Book of ASTM Standards Volume 04.02, American Society for Testing and Materials. Bonneau, Oliver., Poulin, Claude., Dugat, Jerome, Richard, Pierre, Aitcin, Pierre Claude., (April 1996), ”Reactive Powder Concretes” : From Theory to Practice. Concrete International. Bonneau, oliver, Lachemi, Mohamed, Dallaire, Eric, Dugat, Jerome, Aitcin, Pierre Claude, (July-Agustus 1997), ”Machanical Propertis and Durability of Two Industrial Reactive Powder Concrete”, ACI Material Journal. Brandt, A. M., ”Cement-Based Composite” : Material Mechanic Properties and Performance, E & FN SPON. Collepardi, S., Coppalla, L., Troli, R., Collepardi, M., ”Mechanical Properties of Modified Reactive Powder Concrete”. Dallaire, E., Aitcin, P.C., and Lachemi, M., (1998), ”High-Performance Powder”, Civil Engineering. Dugat, J., Roux, N., Bernier, G., (May 1996), ”Mechanical Properties of Reactive Powder Concrete”, Material and Struktur, Vol 29. Iskandar, (2007), Evaluasi Perilaku Sambungan Kolom Komposit Baja-Beton dan balok Beton Bertulang dengan Pembebanan Siklik Statis, Thesis, ITB. Istiqomah, (2002), Studi Eksperimental Reactive Powder Concrete (RPC), Thesis, ITB. Klieger, Paul., Lamond. Joseph F., ”Significance of Tests and Properties of Concrete and Concrete-Making Material”, ASTM STP 169 C. Mac Gregor, James dan Wight, James, K. (2005), Reinforced Concrete Mechanic and Design Fourth Edition, Prentice Hall, New Jersey. Naibaho, Pio R.T., Budiono, B., Surono, A., Pane, I. (2011),” Perilaku Hubungan Balok-Kolom Eksterior dengan mengaplikasikan Reactive Powder Concrete dibawah Beban Siklik”(Makalah Rencana Penelitian), Konferensi Nasional Pascasarjana Teknik Sipil 2011, Program Studi Magister dan Doktor Teknik Sipil, Fakultas Teknik Sipil dan Lingkungan, Institut Teknologi Bandung, Kampus ITB Bandung. %.6/.5< &6< ( * A16<;< )A><;< &.;2

(149) I &2;6;48.@.; "6;2>7. A/A;4.; .9<8 "<9<: 8?@2>6<>12;4.; :2;4.=968.?68.;(2.0@6B2&<C12><;0>2@216/.C.52/.;#.@2>.9)68968I #" +;6B2>?6@.?*>6?.8@6!.8.>@.. %.6/.5<&6<( * A16<;< )A><;< &.;2

(150) I".76.;%A:2>68A/A;4.;.9<8 "<9<:8?@2>6<> 12;4.; :2;4.=968.?68.; 2@<; A/A8 (2.8@63 16/.C.5 2/.; )68968I$.8.9.5 &2;296@6.; D.;4 ?21.;4 2>7.9.; #"&"' '#" ''&" " $ &><4>.: )@A16 $.46?@2> 1.; <8@<> *28;68)6=69.8A9@.?*28;68)6=691.;#6;48A;4.; ;?@6@A@*28;<9<46.;1A;4".:=A? *.;1A;4. Neville, A. M., (1996), Properties of Concrete, Pittman Publishing Ltd. London. O’neil, Edward Francis., Dauriac., Christophe evian., Gillilang, Scatt Keith., (1996), ”Developmen of Reactive Powder Concrete (RPC) Product in United State Contruction Market”, High Strength Concrete An International of Press publication, Editor John A. Bickling ACI Park, R and Paulay, T. (1975), Reinforced concrete Structures, John Wiley, Canada. Paulay, T., dan Park, R. (1984), Joints in Reinforced Concrete Frames Design for Earthquake Resistance, Rhjh esearch Report, Departement of Civil Engineering University of Cantebury Christchurch New Zealand. Relim Report 11, Interfacial Transition Zone in Concrete, Edited By J. C. Maso. Richard, P., Cheyrezy, M. H., (1994), ”Reactive Powder Concrete with High Ductility and 200–800 MPa Compressi Strength”, Concrete Technology : Past, Present, Future, Sp 144, American Concrete Institute, Detroit. Roux, N., Andrade, C., Sanjuan, M. A., (Pebruari 1996), ”Experimental Study of Durability of Reactive Powder Concretes”, Journal of Material in Civil Engineering. Russell, H. G., ”High Strength Concrete”, ACI Compilation. SNI 03-2847-2002. (2002), Tata Cara Perhitungan Struktur Beton untuk Bangunan Gedung. SNI 03-1726-2002. (2002), Tata Cara Perencanaan Ketahanan Gempa Untuk Bangunan Gedung. Uchikawa, Hiroshi., ”Characterization and Material Design of High Strenght Concrete with Superior Work Ability”, Cement Technology. Wahyudi, Tatang., Japril, (1996), Pasir Kuarsa, Direktorat Jenderal Pertambangan Teknologi Mineral.. Konferensi Nasional Teknik Sipil 7 (KoNTekS 7). S - 122. Universitas Sebelas Maret (UNS) - Surakarta, 24-26 Oktober 2013.

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