Analisa Respon Mekanik Paving Block Concrete Foam Diperkuat Serat Tandan Kosong Kelapa Sawit (Tkks) Akibat Beban Flexure
DAFTAR PUSTAKA
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[ ]. Departemen Pertanian, Pedoman Pengelolahan Limbah Industri Kelapa
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630/Pedoman_Pengelolaan_Limbah_Industri_kelapa_Sawitlibre.PDF , tanggal akses 07-01-2015 jam 7:40 WIB.
[ ]
Hasrul, Alexis, Sifat Mekanik Komposit Bata Ringan Foam Dengan Variasi
Volume Sekam Padi dan Pasir , Universitas Andalas, 2014.
[ ]
Fauna Adibroto, Pengaruh Penambahan Berbagai Jenis Serat Pada Kuat
Tekan Paving Block, Jurnal rekayasa sipil, 2014.
[ ]
William,, J.C.; et al. (2003). Progress in Structural Materials for Aerospace
Systems (ed. 51st). Acta Materialia. hlm. 5775–5799.
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Setua, D. K., Sperling, L. H., Polymer Science and technology, New york,
1986; vol. 33, hlm. 275
[ ]. Mulyono, Tri, Teknologi Beton, edisi I, ANDI, Yogyakarta, 2004.
[ ]. Pujo, Aji. Purnomo, Rachmat, Pengendalian Mutu Beton sesuai SNI,ACI dan
ASTM, Penerbit Itspress. 2010.
[8].Wikipedia,
Material Komposit, http://id.wikipedia.org/wiki/ Material_
Komposit , tanggal akses 29-1-2015, jam 23:14 WIB.
[9]. Anonim, Concrete Block Paving Book 2: Design Aspects, Published by the
Concrete Manufacturers Association.
[10]. Nuzuli dan Syam Bustami, Concrete Foam Composite Production and
Testing, Universitas Sumatera Utara, Graha Ilmu, Medan, 2014.
[10]. Denneman, E, Kearsley, E & Visser, Definition and application of a
cohesive crack model allowing improved prediction of the
flexural capacity of high-performance fibre-reinforced concrete
pavement materials. Journal of the South African Institution of
Civil Engineering, 2011.
50
[ ]. Direktorat Jenderal Perkebunan, Produksi Perkebunan Menurut Provinsi dan
JenisTanaman,http://www.bps.go.id/tab_sub/view.php?kat= 3&t
abel= 1&daftar= 1&id_subyek= 54%20¬ab= 8 , tanggal akses
07-01-2015 jam 7:35 WIB.
[ ]. Departemen Pertanian, Pedoman Pengelolahan Limbah Industri Kelapa
Sawit,http://s3.amazonaws.com/academia.edu.documents/31798
630/Pedoman_Pengelolaan_Limbah_Industri_kelapa_Sawitlibre.PDF , tanggal akses 07-01-2015 jam 7:40 WIB.
[ ]
Hasrul, Alexis, Sifat Mekanik Komposit Bata Ringan Foam Dengan Variasi
Volume Sekam Padi dan Pasir , Universitas Andalas, 2014.
[ ]
Fauna Adibroto, Pengaruh Penambahan Berbagai Jenis Serat Pada Kuat
Tekan Paving Block, Jurnal rekayasa sipil, 2014.
[ ]
William,, J.C.; et al. (2003). Progress in Structural Materials for Aerospace
Systems (ed. 51st). Acta Materialia. hlm. 5775–5799.
[ ]
Setua, D. K., Sperling, L. H., Polymer Science and technology, New york,
1986; vol. 33, hlm. 275
[ ]. Mulyono, Tri, Teknologi Beton, edisi I, ANDI, Yogyakarta, 2004.
[ ]. Pujo, Aji. Purnomo, Rachmat, Pengendalian Mutu Beton sesuai SNI,ACI dan
ASTM, Penerbit Itspress. 2010.
[8].Wikipedia,
Material Komposit, http://id.wikipedia.org/wiki/ Material_
Komposit , tanggal akses 29-1-2015, jam 23:14 WIB.
[9]. Anonim, Concrete Block Paving Book 2: Design Aspects, Published by the
Concrete Manufacturers Association.
[10]. Nuzuli dan Syam Bustami, Concrete Foam Composite Production and
Testing, Universitas Sumatera Utara, Graha Ilmu, Medan, 2014.
[10]. Denneman, E, Kearsley, E & Visser, Definition and application of a
cohesive crack model allowing improved prediction of the
flexural capacity of high-performance fibre-reinforced concrete
pavement materials. Journal of the South African Institution of
Civil Engineering, 2011.
50