Article Per Year (5 Year)
p-Index From 2021 - 2026
6.432
P-Index
This Author published in this journals
All Journal MEDIA KOMUNIKASI TEKNIK SIPIL Jurnal Rekayasa Sipil dan Desain Rekayasa : Jurnal Ilmiah Fakultas Teknik Universitas Lampung
Bayzoni Bayzoni, Bayzoni
Unknown Affiliation
Civil Engineering, Building, Construction & Architecture

Published : 57 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 57 Documents
Search

 1   2   3   4   5 
Pemodelan dan Perhitungan Kembali Rencana Anggaran Biaya (RAB) Gedung UKM FISIP Tahap 2 Universitas Lampung Berbasis Teknologi Building Information Modelling (BIM) Farabi, Muhammad Al; Husni, Hasti Riakara; Siregar, Amril Maruf; Bayzoni, Bayzoni
Jurnal Rekayasa Sipil dan Desain Vol 11, No 2 (2023): Edisi Juni 2023
Publisher : Jurnal Rekayasa Sipil dan Desain

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

The rapid development that occurs in the construction sector is important because the construction sector is an important part of the development of a country. The rapid development and high level of project complexity require construction service providers to work more effectively and efficiently. Currently, the development of technology and communication science is able to answer these problems, one of which is by using Building Information Modeling (BIM), which facilitates a more integrated design and construction process in order to obtain efficient results. Stages of research methodology: 1) Preparatory stage; 2) Data collection stage; 3) 3D modelling stage with Autodesk Revit; 4) Clash Check examination stage; 5) Stage of releasing work volume; 6) Stage of preparing The Cost Budget Plan (RAB); 7) Stage of drawing conclusions and presenting results. Overall, the total price difference between the total price using the total volume of work contained in the Bill of Quantity (BoQ) results in a greater total price than using the total volume of work produced by Autodesk Revit, with the following indicators: There is a calculation error in the form of human error in the process of preparing the RAB using the total volume of work contained in the BoQ by planning consultants, such as material double-count errors. From this research, it can be concluded: 1) Modeling with Autodesk Revit greatly speeds up planning work because it is very complex to be applied to various construction projects; 2) The use of BIM is very efficient due to the full-integrity facility; and 3) Output volume issued can minimize human error in calculating work volume manually. Minimizing human error greatly affects the contractor's profit.
Peran Pivot Hooks dalam Peningkatan Kapasitas Lentur pada Balok Beton Bertulang Bambu Ummati, Alfinna Mahya; Michael, Michael; Sarassantika, I Putu Ellsa; Fanna, Gibral Tariq; Syuhada, Syahidus; Bayzoni, Bayzoni; Nasution, Ade Prayoga
MEDIA KOMUNIKASI TEKNIK SIPIL Volume 29, Nomor 2, DESEMBER 2023
Publisher : Department of Civil Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14710/mkts.v29i2.48288

Abstract

Some researcher missed the role of hooks in their bamboo reinforcement. Consequently, the bamboo reinforcement and concrete used to have slip and failure to composited, this make the concrete and bamboo working independently to sustain the given loading and the bond failure become the main issue than the beam failure. This research studied about the role of the pivot hooks that capable to enhance the loading capacity higher than the beams without the pivot hooks. Experimental test performed in order to identify the effect of the pivot hooks presence which added to the flexural reinforcement which made by bamboo materials to avoid the bond slip failure that mostly occur in the bamboo reinforced concrete beams. The experimental test which verified by the numerical analysis by FEA NX commercial software proof that the pivot hooks are able to increase the loading capacity of a concrete beam 33% - 40% higher than the bamboo reinforcement without the pivot hooks. Architectural façade and budget efficiency caused the bamboo become unavoidable material in construction, by adding the structure modification such as the pivot hooks for the bamboo reinforcement, the failure can be reduced, then the entanglement of bamboo in construction become more functional.
Implementasi Building Information Modeling (Bim) Dalam Analisis Waste Material Tulangan Kolom Pada Gedung LVP Production Indonesia Chandra, Nanang Aldika; Husni, Hasti Riakara; Bayzoni, Bayzoni; Ashruri, Ashruri
Jurnal Rekayasa Sipil dan Desain Vol 12, No 1 (2024): Edisi Maret 2024
Publisher : Jurnal Rekayasa Sipil dan Desain

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

The rapid development of information technology, especially in the construction sector, has become an important issue in supporting the country's infrastructure needs to produce increasingly high-quality, integrated, and efficient infrastructure products. Therefore, the utilization of Building Information Modeling (BIM) technology has become an alternative that allows construction stages to be faster and more efficient, especially in minimizing waste material. This research aims to determine the influence of applying BIM concepts in optimizing waste materials for column reinforcement of type 1, type 2, and type 3. The research begins with data collection, structural 3D modeling, reinforcement modeling, input of reinforcement mark schedules, clash detection, Bar Bending Schedule (BBS) output, cutting lists, and waste material analysis. The research results show that the total weight requirement of type 1 column reinforcement is 28,449 kg, type 2 column is 26,390 kg, and type 3 column is 26,784 kg, while the total waste weight of type 1 column is 1,256.41 kg, type 2 is 872.6 kg, and type 3 is 916.14 kg. The waste level of type 1 column reinforcement is 4.42%, type 2 column is 3.31%, and type 3 column is 3.42%. Thus, it can be concluded that type 2 column reinforcement is more effective and efficient compared to type 1 and 3 column reinforcement.
Pengaruh Perbedaan Jarak Kolom Terhadap Efisiensi Volume Beton dan Baja Tulangan Marcus, Angela Chikita; Bayzoni, Bayzoni; Alami, Fikri
Jurnal Rekayasa Sipil dan Desain Vol. 8 No. 2 (2020): Edisi Juni 2020
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v8i2.1318

Abstract

Perencanaan elemen struktur harus dilakukan dengan matang untuk mendapatkan hasil yang optimal dalam hal kekuatan dan efisiensi bahan. Penelitian ini bertujuan untuk mengetahui dimensi elemen struktur, volume beton dan baja tulangan, serta nilai biaya yang efisien, berdasarkan jarak optimal kolom. Penelitian ini dimulai dengan penghitungan preliminary design tiap elemen struktur, penghitungan gaya dalam yang bekerja dengan menggunakan SAP 2000, penghitungan tulangan yang dipakai, dan RAB dari tiap sampel jarak kolom. Penghitungan dilakukan dengan memenuhi kaidah keamanan dan kekuatan menurut standar SNI 2847:2013. Dari penelitian yang dilakukan, terdapat perbedaan yang signifikan pada struktur pelat dan balok antar bangunan. Perbedaan tersebut disebabkan oleh pemakaian balok anak pada bangunan dengan jarak kolom 8 meter. Sehingga didapatkan secara total pada jarak kolom 4 meter menggunakan volume beton yang paling sedikit yakni lebih efisien 13,61% jika dibandingkan  dengan jarak kolom 6 meter dan lebih efisien  19,52% dibanding jarak kolom  8 meter. Untuk volume baja tulangan, jarak kolom 6 meter lebih efisien, yakni lebih efisien 25,21% jika dibandingkan  dengan jarak kolom 8 meter dan lebih efisien 4,04% dibanding jarak kolom 4 meter. Pada perbandingan nilai biaya, yang paling ekonomis adalah bangunan dengan jarak kolom 6 meter dengan nilai RAB lebih kecil 5,07% dibanding nilai biaya untuk bangunan dengan jarak kolom 4 meter dan  lebih kecil 10,82% dibanding jarak kolom 8 meter.
Analisis struktur atas jembatan kereta api jalur tunggal pc i girder bentang 35 meter way pengubuan Wahyuddin, Muhammad Tri; Bayzoni, Bayzoni; Siregar, Amril Ma'ruf
Jurnal Rekayasa Sipil dan Desain Vol. 8 No. 3 (2020): Edisi September 2020
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v8i3.1490

Abstract

Beton prategang merupakan jenis beton dengan tulangan baja ditarik dan menghasilkan sistem kesetimbangan pada tegangan dalam tarik pada baja dan tekan pada beton yang dapat meningkatkan kemampuan beton menahan beban luar. Terdapat beragam bentuk profil gelagar beton prategang antara lain box girder, profil U, dan profil I. Pada analisis struktur atas jembatan ini digunakan gelagar profil I atau disebut juga PC I girder. Tujuan dari penelitian ini adalah menganalisis struktur atas jembatan dengan gelagar profil I, menghitung dan melakukan kontrol keamanan terhadap besar lendutan, geser, tegangan serta momen ultimit.Berdasarkan analisis struktur atas jembatan diperoleh dimensi PC I girder dengan tinggi 2,17 m, lebar bidang bawah 0,75 m, lebar bidang atas 0,5 m, dan lebar bidang badan 0,25 m. Pada perhitungan gaya prategang didapatkan gaya prategang awal sebesar 13513,98 kN, gaya prategang saat jacking sebesar 15898,8 kN, dan total kehilangan gaya prategang sebesar 4291,811 kN atau sebesar 27%, sehingga diperoleh nilai gaya prategang efektif sebesar 11606,99 kN. Dan pada perhitungan momen ultimit dinyatakan aman karena diperoleh kapasitas momen ultimit pada balok prategang sebesar 21047,65905 kNm yang nilai nya lebih besar dari momen ultimit terbesar dari hasil kombinasi yaitu sebesar 13764,95 kNm.Kata Kunci : Struktur Atas Jembatan, PC I Girder, Beton Prategang
Evaluation of Stucture Performance the Building a Regional Police Headquarters of Lampung using Direct Displacement Based Design Method of Base Shear Forces Hilmi, Zihan Ramdan; Bayzoni, Bayzoni; Husni, Hasti Riakara
Jurnal Rekayasa Sipil dan Desain Vol. 8 No. 4 (2020): Edisi Desember 2020
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v8i4.1519

Abstract

Direct Displacement Based Design (DDBD) is a new method in computing the loading of earthquakes resistant building structures with displacement as a performance target, which is considered to be more efficient than the method often used previously, namely the Force Based Design (FBD). The purpose of this research is evaluate the performance of the Lampung Regional Police Headquarters building based on the ATC-40 and FEMA 440, where the dimensions of the structure used from shop drawings and can be change if the dimensions not meet requirements. The loads used are gravity loads and base shear force designed using DDBD, where the design performance target is life safety. In the evaluation process of this research, there is one type of main beam that must be changes in dimensions, and the result of structure performance evaluation is immediate occupancy, based on ATC-40 and FEMA 440. Keywords: Displacement, DDBD, Evaluation of Performance.
Desain Struktur Utama Suspension Building Menggunakan Balok Pelat Berdinding Penuh (Pelat Girder) Nopendrianto, Antok; Bayzoni, Bayzoni; Husni, Hasti Riakara
Jurnal Rekayasa Sipil dan Desain Vol. 8 No. 4 (2020): Edisi Desember 2020
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v8i4.1577

Abstract

AbstractPlate girder is a flexible structural component that composed from several plate elements. Basically, plate girder is a beam with a large cross-sectional size and a long span. Plate girder is an alternative if the largest hot rolled steel profile is insufficient to carry the working load due to its long span.This research will plan the main structure, that is girder plate for a multi-storey building with a hanging system (suspension building), and also plan the complementary components. Generally, the implementation steps of the process are collecting planning data, calculating loading, calculating the forces those worked on the structure using SAP2000, after that, designing the girder plate profile, and other components such as joint design and stiffener design, so that safe structural details are obtained.In the design that has been done, the column dimensions are obtained (h = 1500, bf = 500, tw = 8, tf = 30) mm, beam (h = 1500, bf = 450, tw = 8, tf = 30) mm, transverse stiffener ( bp = 120, tp = 8, h = 1440) mm, column-beam joints (Db = 24mm, n1 = 36 bh, n2 = 78 bh), beam-beam joints (Db = 24mm, n1 = 32 bh, n2 = 70 bh), splice joints (Db = 24mm, n1 = 26 bh, n2 = 16 bh), and base plate connections (Db = 24mm, n1 = 10 bh). Based on the design, the profile and components are quite safe to use.Keywords : Girder Plate Beam, Steel Structure, Building Structure Design, Suspension Building. 
Evaluasi Kinerja Struktur Gedung Bertingkat Menggunakan Nonlinear Static Pushover Analysis dengan Capacity Spectrum Method (CSM) (Studi Kasus: Gedung B Rumah Sakit Umum Muhammadyah Metro) Kurniawati, Risa; Bayzoni, Bayzoni; Husni, Hasti Riakara; Isneini, Mohd
Jurnal Rekayasa Sipil dan Desain Vol. 9 No. 4 (2021): Edisi Desember 2021
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v9i4.2004

Abstract

AbstractIndonesia is an earthquake prone area. One of the efforts to anticipate these impacts is to meet the needs of earthquake-resistant buildings. The building must provide optimal performance. Therefore, we need an analysis of earthquake forces in this case pushover analysis. Pushover analysis is an analysis in which the influence of the design earthquake on the structure is considered as a static load that captures the center of mass of each floor.This research takes a case study in Muhammadyah Metro General Hospital Building (B). The purpose of this study to determine the performance point and building performance level using pushover analysis with the capacity spectrum method (CSM). The standard provisions used in this study refer to SNI 1727-2020, SNI 1726-2019, FEMA-440 (2005), and ATC-40 (1996).Based on the results, it can be concluded that this Building shows performance with a level of damage control . However, the structure of this building in the existing condition doesn’t meet the ideal collapse concept. Therefore, the partial ductile behavior of the building results in structural damage but doesn’t collapse. The earthquake has a probability of being exceeded during the life of the structure of 50 years is 10%. Keywords: Pushover Analysis, Earthquake-resistant Buildings, Performance Level AbstrakIndonesia merupakan wilayah rawan gempa bumi. Salah satu upaya untuk mengantisipasi dampak tersebutadalahdengan memenuhi kebutuhan bangunan tahan gempa. Bangunan harus memberikan kinerja yang optimal. Maka dari itu, diperlukan suatu analisis gaya gempa dalam hal ini analisis pushover. Analisis pushover adalah analisis yang mana pengaruh gempa rencana pada struktur dianggap sebagai beban statik yang menangkap pada pusat massa masing-masing lantai.Penelitian ini mengambil studi kasus pada Gedung B Rumah Sakit Umum Muhammadyah Metro. Penelitian ini bertujuan untuk mengetahui performance point dan kriteria level kinerja gedung menggunakan analisis pushover dengan capacity spectrum method (CSM). Adapun peraturan standar yang digunakan pada penelitian ini meliputi SNI 1727-2020, SNI 1726-2019, FEMA-440 (2005), serta ATC-40 (1996).Berdasarkan hasil penelitian disimpulkan bahwa Gedung menunjukkan kinerja damage control . Namun, struktur gedung ini pada kondisi eksisting tidak memenuhi konsep keruntuhan ideal. Dengan demikian, perilaku daktail parsial mengakibatkan kerusakan struktur tetapi tidak runtuh. Gempa tersebut memiliki masa layan selama umur struktur bangunan 50 tahun adalah 10%.Kata Kunci : Analisis Pushover, Bangunan Tahan Gempa, Level Kinerja
Analisis Struktur Gedung Bertingkat Rendah Akibat Pengaruh Beban Gempa Dengan Metode Riwayat Waktu Karima, Fadila Amelia; Isneini, Mohd.; Sebayang, Surya; Bayzoni, Bayzoni
Jurnal Rekayasa Sipil dan Desain Vol. 9 No. 4 (2021): Edisi Desember 2021
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v9i4.2061

Abstract

Bangunan bertingkat merupakan bangunan yang rentan apabila terjadi gempa bumi dan berpotensi menimbulkan korban jiwa. Pergerakan tanah akibat terjadinya gempa bumi dapat menimbulkan getaran dan deformasi yang dapat merusak struktur bangunan. Analisis serta evaluasi perlu dilakukan untuk meminimalisir kejadian yang tidak diinginkan. Penelitian ini bertujuan untuk menganalisis struktur dalam memenuhi persyaratan keamanan berdasarkan SNI 1726:2019 dengan tinjauan simpangan antar tingkat dan ATC-40 yang ditinjau berdasarkan maximum total drift. Analisis struktur yang dilakukan menggunakan metode riwayat waktu dengan bantuan software SAP2000. Model gedung dianalisis dengan menggunakan 5 (lima) akselerogram gempa masukan. Percepatan akselerogram yang digunakan sebagai gempa masukan perlu diskalakan terlebih dahulu terhadap taraf gempa rencana sesuai objek penelitian. Dari hasil penelitian ini, didapatkan bahwa akibat pengaruh gempa masukan Imperial Valley, Kobe, Kocaeli, Northridge, dan San Fernando, simpangan antar tingkat yang terjadi masih dalam kategori aman karena tidak melebihi simpangan antar tingkat izin yaitu 48,4615 mm. Gedung termasuk dalam taraf kinerja Immediate Occupancy (IO) berdasarkan ATC-40, nilai maximum total drift berada dibawah batas 0,01.
Evaluasi Kekuatan Struktur Gedung Bertingkat Akibat Pengaruh Beban Gempa Menggunakan Analisis Dinamik Respon Spektrum (Studi Kasus: Gedung B Rumah Sakit Umum Muhammadyah Metro) Fadzilah, Masrifatun; Husni, Hasti Riakara; Bayzoni, Bayzoni; Isneini, Mohd
Jurnal Rekayasa Sipil dan Desain Vol. 9 No. 4 (2021): Edisi Desember 2021
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jrsdd.v9i4.2237

Abstract

AbstractIndonesia is an area with a high level of earthquake vulnerability. One of the efforts to anticipate these impacts is to meet the needs of earthquake-resistant buildings. In this case, it is necessary to carry out a comprehensive planning and evaluation of earthquake-resistant buildings by taking into account the lateral forces caused by earthquake loads in accordance with the latest regulations. This research takes a case study in Building B of the Muhammadiyah Metro General Hospital. In planning, the structure of the building still uses the old regulations, namely SNI 1726-2012, SNI 1727-2013, and SNI 2847-2013. Meanwhile, currently the latest planning standards have been implemented, namely SNI 1726-2019, SNI 1727-2020, and SNI 2847-2019, so it is necessary to evaluate the strength of the structure using the latest regulations. This study aims to compare the results of evaluating the strength of high-rise buildings due to the influence of earthquake loads and without earthquake loads using the dynamic response spectrum analysis method. Based on the results of the study, it was concluded that the building structure was not strong enough to withstand earthquake loads, and there was a significant difference between conditions without earthquake loads and with the influence of earthquake loads. Keywords: Response Spectrum Analysis, Earthquake Resistant Building, Evaluation of Structural Strength AbstrakIndonesia merupakan wilayah dengan tingkat kerawanan gempa yang tinggi. Salah satu upaya untuk mengantisipasi dampak tersebutadalahdengan memenuhi kebutuhan bangunan tahan gempa. Dalam hal ini perlu dilakukan perencanaan dan evaluasi yang menyeluruh terhadap bangunan tahan gempa dengan memperhitungkan gaya lateral yang diakibatkan oleh beban gempa sesuai dengan peraturan terbaru.Penelitian ini mengambil studi kasus pada Gedung B Rumah Sakit Umum Muhammadyah Metro. Dalam perencanaannya, struktur gedung tersebut masih menggunakan peraturan lama yaitu SNI 1726-2012, SNI 1727-2013, dan SNI 2847-2013. Sedangkan untuk saat ini telah diberlakukan standar perencanaan terbaru yaitu SNI 1726-2019, SNI 1727-2020, dan SNI 2847-2019, sehingga perlu dilakukan evaluasi kekuatan struktur dengan menggunakan peraturan terbaru tersebut.Penelitian ini bertujuan untuk mengetahui perbandingan hasil evaluasi kekuatan struktur gedung bertingkat akibat pengaruh beban gempa dan tanpa beban gempa menggunakan metode analisis dinamik respon spektrum. Berdasarkan hasil penelitiandisimpulkan bahwa struktur gedung tidak cukup kuat untuk menahan beban gempa, dan terdapat perbedaan yang signifikan antara kondisi tanpa beban gempa dan dengan pengaruh beban gempa. Kata Kunci : Analisis Respon Spektrum, Bangunan Tahan Gempa, Evaluasi Kekuatan Struktur
Co-Authors Adha, Emil Surya Alfinna Mahya Ummati, Alfinna Mahya Anjani, Ammaliya Ashruri Ashruri, Ashruri Asih, Windi Retno Atullah, Rafif Ansori Bastari, Muh Alieftama Dytam Chandra, Nanang Aldika Dwi wahyuni Setia Budi Utami, Chatarina Niken Dzakiroh, Alda Alfiah Fadzilah, Masrifatun Fanna, Gibral Tariq Farabi, Muhammad Al Fernanda, Raka Aditya Fikri Alami Hasti Riakara Husni Hilmi, Zihan Ramdan I Putu Ellsa Sarassantika Isneini, Mohd Karima, Fadila Amelia Khasanah, Felin Khotimah, Siti Usnul Kurniawati, Risa Laily, Fasya Noor Marcus, Angela Chikita Michael Michael Mohd. Isneini Mudia, Tutia Rahmayani Mustofa, Ragat Aji Nasution, Ade Prayoga Niken, Chatarina Nopendrianto, Antok Nurvireza, Daffa Prameswari, Sabrina Cintia Putra Sianipar, Michael Yuda Cen Restiawan, Arie Dwie Reviana Reviana Sabila, Widya Lulu Amalia Saputra, Ardo Saputri, Mellynia Siregar, Amril Ma'ruf siregar, amril maruf Sungkai, Chindrika Kumara Surya Sebayang Susanto Susanto Syahidus Syuhada Tiara Anggraini Wahyuddin, Muhammad Tri Wati, Reni Anjar Zulva, Indana