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PENGARUH LIMBAH CANGKANG KELAPA SAWIT TERHADAP KUAT TEKAN DAN BERAT BETON Raja Marpaung; Lina Flaviana Tilik
PILAR Vol. 7 No. 2 (2012): PILAR 07092012
Publisher : Politeknik Negeri Sriwijaya

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Concrete as a building material favored by many experts in the field of structure, because it is easily formed, prepared and executed, and mixtures of materials are easy to obtain. However, conventional concrete still shows many weaknesses, including structure components which is relatively heavy, and relatively not too high in strength (when compared to steel). For that reason, research and innovation of materials are required to obtain a concrete mixture able to produce concrete that is lightweight but high strength. Material innovation is done by using lightweight aggregate as coarse aggregate substitute in the form of oil palm shell waste which still untapped by industries This was chosen as the waste oil palm shells as aggregate qualify mild violence and have a good and not easily damaged in the concrete.The study was conducted to determine and compare the value of compressive strength, tensile strength and heavy volume concrete produced from a mixture of concrete with substitution of oil palm shells with coarse aggregate with a variation of 10%, 20%, 30%, 40% and 50%. Quality concrete planned in this study is K-250.The test result shows that the oil palm shell concrete mixed, results compressive strength, tensile strength of concrete is lower and lighter weight concrete, the more the percentage of oil palm shells is substituted with coarse aggregate, the more decline the compressive strength, tensile strength of concrete will be, but weight concrete is also lighter. Percentage reduction in compressive strength of the smallest obtained in a mixture of oil palm shell concrete + 28 days is 29.31% - 69.39%., The decrease percentage in tensile strength is obtained in a mixture of oil palm shell concrete age of 28 days which is 30.55 % - 99.66%., and the percentage reduction of weight concrete mixture obtained in most large oil palm shell concrete + 28 days is 1.70% - 23.03 %.The biggest ratio of ft / fc is obtained on OPS concrete mixture of 28 days which is 11.69% in the variation OPS 10%, whereas in the OPS mixture of 40% and 50% ratio ft / fc' is very small.

THE INFLUENCE OF INITIAL PRESSURE ON THE CONCRETE COMPRESSIVE STRENGTH Lina Flaviana Tilik
PILAR Vol. 6 No. 2 (2011): PILAR 06092011
Publisher : Politeknik Negeri Sriwijaya

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This study is aimed to find out the influence of initial pressure and the percentage of fly ash as partial substitution of cement on the value of concrete compressive strength. The test object used is cylindrical with a diameter 10 cm and a height of 20 cm. This study used independent variables of initial pressure of 25 kg/cm², 50 kg/cm², and 75 kg/cm², and dosages of fly ash of 5%, 10%, 15% and 20%. The concrete compressive strength with initial pressure is higher than which without initial pressure. The percentage of fly ash 5%, 10%, 15% and 20% given lower concrete compressive strength than the normal. The result of study that the composition of concrete mixture which is given an initial pressure of 75 kg/cm² produces a highest compressive strength is 41,08 MPa.

PENGARUH PEMADATAN BETON SEGAR TERHADAP KUAT TEKAN BETON Lina Flaviana Tilik; Ika Sulianti
PILAR Vol. 7 No. 1 (2012): PILAR 07032012
Publisher : Politeknik Negeri Sriwijaya

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Concrete is construction material which frequently used in the field of civil engineering. In constructing process, concrete material is a part of building structure with some superiorities, among others, are: high compressive strength, being able to be formed as needed, no serious maintenance needed, and relatively fireproof and weatherproof. Various studies and experiments in the field of concrete as part of efforts to improve the quality of concrete. One way to increase the strength of concrete is to increase the compacting, which minimizes pores or cavities formed in the concrete. The additive material used in this study is fly ash. Fly ash is a waste of coal burning. The fly ash in this study was taken from PLTU Bukit Asam Tanjung Enim. The type of fly ash used is fly ash F class, which is the result of burning of coal of anthracite/bituminous with low content of CaO, less than 10%. Maximum density of concrete can be attained by compacting the fresh concrete. The main goal of compaction of the fresh concrete is to eliminate air cavities and to achieve maximum density. The concrete compressive strength will increase if the density of concrete also increases. The compaction of 75 kg / cm ² with no fly ash added generates the strength of compressive of concrete 41.08 MPa. The greater compaction of fresh concrete is given, the more compacted the concrete will be, surely the weight of the concrete content will get heavier. This is because the concrete that has been compacted will be more compacted, so that air pores in the concrete will be smaller than normal concrete. The maximum weight of concrete of compaction 75 kg / cm ² with no fly ash added is 2.518 ton / m³. In this study the crack tend to form columnar type.

Analisis Kelayakan Finansial Internal Rate of Return (IRR) dan Benefit Cost Ratio (BCR) pada Alternatif Besaran Teknis Bangunan Pasar Cinde Palembang Ika Sulianti; Lina Flaviana Tilik
PILAR Vol. 8 No. 1 (2013): PILAR 08032012
Publisher : Politeknik Negeri Sriwijaya

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This paper discusses the feasibility analysis of financial internal rate of return (IRR) and benefit cost ratio (BCR) on Cinde market which is one of the oldest markets in Palembang. Feasibility analysis is done by creating two design alternatives which were different from existing alternative and assumes revenues received later. By creating different alternatives, land area, kiosks and parking lot, alternative A has a 26,08% IRR and BCR 1.18. This alternative makes buyers much easier to go directly to the floor or parking lot they want to go to. Effect of technical quantities of market building will greatly affect the financial feasibility with reference to the existing standard.

PENGARUH ABU TERBANG SEBAGAI FILLER UNTUK KUAT TEKAN BETON Lina Flaviana Tilik; Raja Marpaung; Darma Prabudi
PILAR Vol. 10 No. 1 (2014): PILAR 10032014
Publisher : Politeknik Negeri Sriwijaya

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Beton banyak digunakan dalam setiap konstruksi karena beton lebih mudah dalam perawatan, lebih tahan lama, tahan terhadap api, tahan terhdap cuaca serta mempunyai kuat tekan yang tinggi. Karakteristik dari beton harus dipertimbangkan dengan tujuan konstruksi. Pendekatan yang baik adalah dengan memperhatikan sifat beton. Meskipun dengan usaha untuk mendapatkan kekuatan maksimum bukan satu-satunya cara, namun harus diperhatikan juga kriteria perencanaan, ukuran dari kuat hansur silinder beton sebagai benda uji untuk mempertahankan mutu standar dari beton.Pengujian yang dilakukan untuk mendapatkan kuat tekan beton yang tinggi dengan cara manambahkan abu terbang sebagai filler pada beton. Dari hasil penelitian didapatkan bahwa kuat tekan beton normal tanpa abu terbang pada umur 28 hari sebesar 43.82 MPa sedangkan dengan campuran 10% abu terbang sebagai filler didapat kuat tekan 44.44 MPa . Pada campuran 20% abu terbang didapat kuat tekan beton rata-rata 36.05 MPa.

PERILAKU STRUKTUR BETON BERTULANG AKIBAT PEMBEBANAN SIKLIK Raja Marpaung; Djaka Suhirkam; Lina Flaviana Tilik
PILAR Vol. 10 No. 2 (2014): PILAR 0902014
Publisher : Politeknik Negeri Sriwijaya

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Dalam percobaan eksperimantal ini pemodelan struktur dibuat dalam bentuk kantilever dengan pembebanan diujung bebasnya. Percobaan ini dilakukan dengan sistem pembebanan siklik . Pembebanan ini dilakukan pada spesimen secara terus menerus sampai spesimen mencapai keruntuhannya. Pengamatan kerusakan, beban kapasitas pada saat retak, leleh, ultimate dan failure didapat melalui hasil data percobaan.Dari hasil percobaan ini semakin besar beban awal pada percobaan siklik, beban puncak yang dicapai swpesimen semakin besar, penurunan beban puncak semakin besar, selieih penurunan disipasi energi kumulatif semakin kecil dan tingkat kerusakannya semakin berat.Pada percobaan siklik 1 disipasi energi lebih kecil dari percobaan 2 dan 3 dan disipasi energy pada percobaan 2 lebih kecil dari percobaan 3, hal ini disebabkan pada pembebanan siklik selalu mengalami pengulangan yang menguntungkan bagi specimen guna memberikan perlawanan terhadap pembebanan sewaktu perubahan beban pada setiap siklusPada saat kondisi leleh, specimen tidak menunjukkan kerusakan yang berarti. Retak yang terjadi belum melebar dan sebagian besar retak tersebut hanya berupa retak rambut. Pada saat ultimate, kerusakan yang terjadi pada beban tekan 5 δy, menunjukkan retak menyeluruh sepanjang tinggi balok dan selimut beton telah hancur. Pada akhir percobaan, kerusakan specimen lebih berat, beton mengalami kehancuran pada daerah pangkal balok sehingga kekuatan beton tidak lagi dapat menahan beban.

Pengaruh Cangkang Kerang Sebagai Substitusi Agregat Kasar Dengan Bahan Tambah Superplasticizer Pada Kuat Tekan Beton Lina Flaviana Tilik; Fadhila Firdausa; Muhammad Rifqi Agusri; Puji Hartoyo
Jurnal Deformasi Vol 6, No 2 (2021): JURNAL DEFORMASI
Publisher : Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/deformasi.v6i2.6638

Beton adalah bahan konstruksi yang diperoleh dari pencampuran pasir, kerikil, atau batu hancur, semen, dan air. Untuk meningkatkan sifat beton, beberapa jenis aditif yang memiliki fungsi tertentu ditambahkan ke campuran beton, yaitu meningkatkan kemampuan kerja, daya tahan, dan waktu pengerasan beton. Kerang dengan kualitas dan bentuk yang sangat baik digunakan sebagai bahan kerajinan, sedangkan bentuk yang buruk dapat menyebabkan limbah yang mengakibatkan serangkaian masalah lain, terutama kebersihan lingkungan sekitarnya. Penelitian ini bertujuan untuk menentukan efek kerang sebagai substitusi agregat kasar dengan bahan tambahan superplasticizer pada kekuatan tekan beton. Spesimen yang digunakan adalah silinder dengan diameter 15 cm dan tinggi 30 cm. Komposisi kerang yang ditentukan dalam penelitian ini adalah 0%, 5%, 10%, 15%, 20% dan 0,5% superplasticizer ditambahkan. Kualitas beton yang direncanakan adalah Fc = 25MPa. Nilai kekuatan tekan beton meningkat dengan penambahan cangkang sebesar 5% dan menurun dalam penambahan cangkang di atas 5% dengan superplasticizer 0,5% ditambahkan. Kekuatan tekan beton normal dan beton superplastisizer 0,5% adalah 28,26 MPa dan 29,15 MPa pada usia 28 hari dan kekuatan tekan beton shell dengan komposisi 5%, 10%, 15%, dan 20% ditambahkan dengan superplasticizer 0,5% menghasilkan kekuatan tekan 30,78MPa; 26.78MPa; 24,71 MPa, dan 22,93 MPa pada usia 28 hari.

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