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All Journal Teras Jurnal BENTANG : Jurnal Teoritis dan Terapan Bidang Rekayasa Sipil
Muslimin, Muhammad Syahrizal
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Civil Engineering, Building, Construction & Architecture Engineering Environmental Science Transportation

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Implementation of Rainwater Harvesting for Urban Flood Control in the Karang Asam Kecil Watershed Muslimin, Muhammad Syahrizal; Suharyanto; Wulandari, Dyah Ari
Bentang : Jurnal Teoritis dan Terapan Bidang Rekayasa Sipil Vol 13 No 2 (2025): BENTANG Jurnal Teoritis dan Terapan Bidang Rekayasa Sipil (July 2025)
Publisher : Universitas Islam 45

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33558/bentang.v13i2.11036

Abstract

95 masl and is often flooded. This study aims to evaluate the effectiveness of the implementation of Low Impact Development with rainwater harvesting as the main method in reducing surface runoff in the Karang Asam Kecil watershed. Rainwater harvesting modeling is applied to 9 subcatchments with an application of 100 m2/unit. Simulation using the Storm Water Management Model (SWMM) with a 10-year return period rainfall shows that surface runoff in existing conditions is 45.632 mm. Meanwhile, after the implementation of rainwater harvesting, it decreased to 18.814 mm, or decreased by 58.77%. These results indicate that rainwater harvesting is effective in reducing surface runoff and can be a solution to flood mitigation in the Karang Asam Kecil watershed.
UJI LENTUR BALOK BETON BERTULANG BAJA RINGAN DENGAN SKEMA TULANGAN TUNGGAL Basyaruddin, Basyaruddin; Khala, Christianto Credidi Septino; Muslimin, Muhammad Syahrizal; Putri, Andina Prima
Teras Jurnal : Jurnal Teknik Sipil Vol. 11 No. 1 (2021): Maret 2021
Publisher : UNIVERSITAS MALIKUSSALEH

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29103/tj.v11i1.418

Abstract

Abstrak Dalam dunia konstruksi, balok beton bertulang menggunakan tulangan longitudinal agar dapat menahan tegangan tarik yang terjadi pada penampang beton tersebut dan tulangan longitudinal yang digunakan adalah baja tulangan (rebar reinforcement). Tegangan tarik yang dapat mencapai 420 Mpa merupakan alasan utama baja tulangan digunakan pada beton bertulang, namun, akibat perkembangan teknologi, terdapat material yang mempunyai tegangan tarik yang melebihi baja tulangan yaitu baja ringan. Baja ringan adalah baja canai dingin (light cold rolled) dengan kualitas tinggi yang bersifat ringan dan tipis, namun memiliki tegangan tarik yang melebihi baja tulangan biasa yaitu 550 Mpa, oleh karena itu, untuk mengetahui kapasitas lentur balok beton berbaja ringan maka dilakukan penelitian dengan memanfaatkan baja ringan sebagai tulangan longitudinal yang selanjutnya dilakukan uji lentur sesuai  SNI-4431-2011. Baja canai dingin yang digunakan adalah baja ringan tipe C (C75x0.75) dengan 3 skema benda uji. Skema pertama yaitu dengan memanfaatkan baja ringan secara utuh sedangkan skema kedua dan ketiga adalah hanya dengan memanfaatkan badan dari baja ringan tersebut sehingga masing-masing skema memiliki rasio penulangan sebesar 0.47%, 0.28%, dan 0.28%. Selain itu, beton bertulang biasa dengan rasio 0.63% turut diuji sebagai pembanding (skema 4). Hasil uji lentur menunjukkan bahwa skema 1 menunjukkan kuat lentur terbesar dari skema lainnya yaitu sebesar 7.48 Mpa. Selanjutnya, meskipun skema kedua dan ketiga memiliki rasio penulangan yang sama skema kedua memiliki kuat lentur 0.24 Mpa lebih besar dari skema ketiga yang bernilai 5.76 Mpa. Akhirnya, beton dengan tulangan biasa dengan rasio terbesar memiliki kuat lentur sebesar 5.06 Mpa. Kata kunci: Baja Ringan, Rasio Penulangan, Tulangan Longitudinal, Uji Lentur    Abstract In the world of construction, reinforced concrete beams generally use longitudinal reinforcement to withstand the tensile stress that occurs in the concrete section and the longitudinal reinforcement used is rebar reinforcement. The tensile stress that can reach 420 Mpa is the main reason reinforcing steel is used in reinforced concrete. However, due to technological developments, there is a material that has tensile stress that exceeds that of reinforcing steel, namely mild steel. Mild steel is light cold-rolled steel with high quality which is light and thin but has tensile stress that exceeds ordinary reinforcing steel, which is 550 Mpa. Therefore, to determine the flexural capacity of lightweight steel beams, research was carried out using mild steel as longitudinal reinforcement, which was then carried out by bending tests according to SNI-4431-2011. Cold rolled steel used is mild steel type C (C75x0.75) with 3 specimen schemes. The first scheme is to make full use of mild steel, while the second and third schemes are only to utilize the body of the mild steel so that each scheme has a reinforcement ratio of 0.47%, 0.28%, and 0.28%. Also, ordinary reinforced concrete with a ratio of 0.63% was also tested for comparison (fourth scheme). The flexural test results show that scheme 1 shows the largest flexural strength of the other schemes, namely 7.48 Mpa. Furthermore, although the second and third schemes have the same reinforcement ratio, the second scheme has a bending strength of 0.24 MPa which is greater than the third scheme which is 5.76 MPa. Finally, concrete with ordinary reinforcement with the largest ratio has a bending strength of 5.06 Mpa. Keywords: Bending Test, longitudinal reinforcement, Mild Steel, Reinforcement Ratio
Co-Authors Basyaruddin Basyaruddin, Basyaruddin Dyah Ari Wulandari Khala, Christianto Credidi Septino Putri, Andina Prima Suharyanto