MEKANISME RETAK UNTUK MEMPEROLEH ENERGI FRAKTUR BETON STRUKTURAL MUTU K-250 MENGGUNAKAN UJI THREE- POINT BENDING (SEBAGAI IMPLEMENTASI MATA KULIAH TEKNOLOGI BETON)

NADYA ZAINUL UMAYAH, . (2023) MEKANISME RETAK UNTUK MEMPEROLEH ENERGI FRAKTUR BETON STRUKTURAL MUTU K-250 MENGGUNAKAN UJI THREE- POINT BENDING (SEBAGAI IMPLEMENTASI MATA KULIAH TEKNOLOGI BETON). Sarjana thesis, UNIVERSITAS NEGERI JAKARTA.

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Abstract

Nadya Zainul Umayah, Anisah, Rosmawita Saleh, “Mekanisme Retak Untuk Memperoleh Energi Fraktur Beton Struktural Mutu K-250 Menggunakan Uji Three-Point Bending (Sebagai Implementasi Mata Kuliah Teknologi Beton)” Skripsi, Jakarta: Jurusan Pendidikan Teknik Bangunan, Fakultas Teknik, Universitas Negeri Jakarta, 2023. Penelitian ini bertujuan untuk mengetahui mekanisme retak untuk memperoleh energi fraktur pada beton struktural mutu K-250. Penelitian ini menggunakan beton instan mutu K-250 dengan benda uji balok beton penampang persegi panjang dimensi 100 x 100 x 850 mm dengan lebar takikan 5 mm dan benda uji silinder berdimensi 100 x 200 mm. Pengujian energi fraktur beton dilakukan dengan menggunakan metode uji three-point bending merujuk pada RILEM Technical Committee 50-FMC pembebanan dilakukan secara bertahap sampai balok mengalami keruntuhan dan pengujian kuat tekan mengacu pada SNI 1974-2011. Pengujian benda uji dilakukan pada saat hari ke-7 karena terdapat keterbatasan penelitian. Hasil pengujian kuat tekan di hari ke-7 akan dikonversi ke-28 hari. Hasil penelitian menunjukkan bahwa nilai kuat tekan beton mutu K-250 pada hari ke-7 sebesar 19,77 MPa setelah di konversi menjadi 28 hari didapatkan nilai kuat tekan sebesar 28,67 MPa menghasilkan nilai energi fraktur sebesar 57, 89 N/m. Ukuran agregat mempunyai pengaruh yang signifikan terhadap nilai energi fraktur. Semakin besar ukuran agregat maka retak akan lebih berkelok serta permukaan retak lebih kompleks. Kata kunci: Energi fraktur, Retak, Beton, K-250, Uji Three-Point Bending ***** Obtaining Fracture Energy of K-250 Structural Concrete Quality Using Three- Point Bending Test (As Implementation of Concrete Technology Course)" Thesis, Jakarta: Department of Building Engineering Education, Faculty of Engineering, State University of Jakarta, 2023. This study aims to determine the cracking mechanism to obtain fracture energy in K-250 structural concrete. This study used instant concrete of grade K-250 with rectangular section concrete beam specimens of dimension 100 x 100 x 850 mm with notch width of 5 mm and cylindrical specimens of dimension 100 x 200 mm. Concrete fracture energy testing is carried out using the three-point bending test method referring to the RILEM Technical Committee 50-FMC loading is carried out gradually until the beam collapses and compressive strength testing refers to SNI 1974-2011. Testing of test specimens was carried out on the 7th day because there were research limitations. The results of the compressive strength test on day 7 will be converted to 28 days. The results showed that the compressive strength value of K-250 quality concrete on day 7 was 19.77 MPa after conversion to 28 days, the compressive strength value of 28.67 MPa was obtained, resulting in a fracture energy value of 57, 89 N/m. Aggregate size has a significant influence on the fracture energy value. The larger the aggregate size, the more winding the crack and the more complex the crack surface. Keywords: Fracture energy, Crack, Concrete, K-250, Three Point-Bending Test

Item Type: Thesis (Sarjana)
Additional Information: 1). Anisah, MT ; 2). Dra. Rosmawita Saleh, M.Pd
Subjects: Teknologi dan Ilmu Terapan > Teknik Sipil
Divisions: FT > S1 Pendidikan Teknik Sipil
Depositing User: Users 19930 not found.
Date Deposited: 07 Sep 2023 02:43
Last Modified: 07 Sep 2023 02:43
URI: http://repository.unj.ac.id/id/eprint/41366

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