Article Per Year (5 Year)
p-Index From 2020 - 2025
0.23
P-Index
This Author published in this journals
All Journal REKA RACANA Semesta Teknika APPLIED RESEARCH ON CIVIL ENGINEERING AND ENVIRONMENT (ARCEE)
Praganif Sukarno
Universitas Muhammadiyah Yogyakarta
Civil Engineering, Building, Construction & Architecture Earth & Planetary Sciences Education Engineering Materials Science & Nanotechnology Transportation

Published : 3 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 3 Documents
Search

 1 
Analisis Lentur Balok Penampang T Berlubang Memanjang Menggunakan Metode Elemen Hingga Non-linier Sukarno, Praganif; ".", Muslikh; Sulistyo, Djoko
Jurnal Semesta Teknika Vol 14, No 1 (2011): MEI 2011
Publisher : Jurnal Semesta Teknika

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

Abstract

Numerical analysis is a time-, cost- and equipment-effective method to study the behavior of structures. ATENA is one of the available software-based on finite element method. Hollow cross section is one way to reduce the weight of concrete beam. The effect of holes on beam may reduce the bending resistance. The hollow beam was numerically modeled which and subsequently analyzed using the ATENA v.2.10 software. Material parameters being used as input data was obtained from laboratory tests, assuming that steel-concrete bond was prefect, and and the steel reinforcement was modeled as discrete. The results of numerical analysis of the ATENA were then compared with experimental test results on the flexural behavior and serviceability limit state of reinforced concrete hollow beams lengthwise (Amir, 2010), then study the variation of quality parameters of concrete and the hole size variations. The results shows that the collapse load of hollow beam reached only 96.71% and deflection reached 135.96%. Stiffness of hollow concrete beam was also showed a higher stiffness of the experiment. The crack pattern is flexural fracture and very much agree with that of the experiments. Test parameters of concrete quality variations as well as the hole size variation showed higher concrete quality/size of the hole will reduce the ductility of beam.
BOND STRENGTH OF BAR USING GROUTING FOR PRECAST CONCRETE CONNECTION Rosyidah, Anis; Sucita, I Ketut; Sukarno, Praganif; Sari, S. R. Permita; Sari, Chintya
Applied Research on Civil Engineering and Environment (ARCEE) Vol 1, No 01 (2019): Civil and Environment Development
Publisher : POLITEKNIK NEGERI JAKARTA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32722/arcee.v1i01.2311

Abstract

In precast concrete, a connection is needed to unite the components so that they become a whole unified structure. This study aims to determine the reinforcement strength and length of reinforcement in precast concrete connections. To paste reinforcement into precast concrete, giving additional material in the form of grouting which is called sika grout 215 and functions as an adhesive is necessary. Pullout testing is carried out in the laboratory, and its simulation by modeling uses the finite element method based software. This research is divided into 2 phases. The first phase is making specimen to examine the bond strength between the concrete and reinforcement that has been given sika grout 215. So monolithic specimen is made as a comparison. The result of the bond strength of the monolithic test specimen is 6.24 MPa, and the sika grout 215 category is 6.52 MPa. From the experimental results in the laboratory with modeling, it is obtained the bond strength ratio of 0.94. The length of development (ld) based on the results of the testing phase I of 200 mm. The second phase is examining the damage pattern due to the stress that occurred. Specimens are made into 4 categories, namely modeling developments with the length of 120 mm (<40% ld), with the length of 160 mm (<20% ld), with length of 200 mm (= ld), and with the length of 260 mm(> 30% ld) both for monoliths and sika grout 215. The damage pattern, which is in the form of yielding and breaking reinforcement as the result of the pullout experiment in the laboratory shows not much different from the result of simulation using the software.
Jarak Optimum Tie Constraint at Screws pada Cold-Formed Steel Built-Up Box Beams dengan Four-Point Flexural Loading Swastika, Tri Widya; Purnomo, Heru; Ashadi, Henki Wibowo; Sukarno, Praganif
RekaRacana: Jurnal Teknik Sipil Vol 11, No 3: November 2025
Publisher : Institut Teknologi Nasional, Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26760/rekaracana.v11i3.231

Abstract

ABSTRAKCold-formed steel (CFS) memiliki sejumlah keunggulan: antara lain kekuatan tinggi, ringan, pemasangan cepat dan praktis, tahan terhadap kebakaran, daya tahan yang baik, serta dapat didaur ulang. Namun, balok dengan penampang terbuka yang umum digunakan pada konstruksi rentan terhadap ketidakstabilan akibat ketidaksamaan letak titik geser dan titik berat. Untuk mengatasi permasalahan tersebut, salah satu solusi yang banyak digunakan adalah penggunaan balok dengan built-up section. Penelitian ini menyajikan studi eksperimental mengenai pengaruh variasi jarak tie constraint at screws pada CFS built-up box beams terhadap pembebanan lentur empat titik. Enam spesimen balok dengan bentang 1.300 mm diproduksi dari profil C75×35 dengan tebal 0,75 mm; kemudian dirakit secara berhadapan menjadi penampang kotak dengan menggunakan self-drilling screw yang dipasang sepanjang sayap untuk berfungsi sebagai tie constraint at screws. Tiga konfigurasi jarak sekrup digunakan, yaitu H; 2H; dan 5,5H; dengan H adalah tinggi penampang. Semua pengujian dilakukan pada kondisi tumpuan sederhana. Hasil pengujian menunjukkan bahwa variasi jarak tie constraint at screws berpengaruh signifikan terhadap perilaku lentur CFS built-up box beams. Berdasarkan hasil yang diperoleh, jarak sekrup 5,5H direkomendasikan untuk aplikasi desain pada kondisi pembebanan lentur empat titik.Kata kunci: cold-formed steel, built-up box beams, jarak tie constraint at screws, eksperimental ABSTRACKCold-formed steel (CFS) has many advantages, including high strength, lightweight, fast and practical installation, durability, recyclable, non-combustibility, and simple manufacturing procedures. However, since the shear center and the centroid of the cross-section do not coincide, open-section beams are prone to instability modes. To address this issue, researchers have used doubly symmetric built-up sections or built-up closed sections beams. This study presents an experimental investigation on CFS built-up box beams with varying screw spacing arrangements. Six beam specimens; each with a span of 1,300 mm; were subjected to four-point bending tests. The beams were fabricated from C75×35 profiles with a thickness of 0.75 mm, assembled face-to-face into built-up box sections using self-drilling screws positioned along the flanges to act as tie constraint at screws. Three screw spacing configurations were considered—H, 2H, and 5.5H—where H denotes the section depth. All tests were conducted under simple support conditions. Findings indicate that screw spacing significantly influences the flexural behavior of CFS built-up box beams. Based on the outcomes, a screw spacing of 5.5H is recommended for design applications under four-point bending conditions.Keywords: cold-formed steel, built-up box beams, tie constraint at screws spacing, experiment
Co-Authors Anis Rosyidah Djoko Sulistyo Henki W Ashadi Heru Purnomo I Ketut Sucita Muslikh ".", Muslikh Sari, Chintya Sari, S. R. Permita Tri Widya Swastika, Tri Widya