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PENGEMBANGAN OLAHRAGA UNGGULAN DESA TREKO DENGAN MENERAPKAN SPORT MANAGEMENT PRINCIPLES: STRATEGIC SPORT MANAGEMENT Listyanda, R. Faiz; Andriyanto, Andriyanto; Hidayatulloh, Muhammad Rizal; Septian, Dwi Nur; Naufal, Ahmad; Suryanto, Esha Saraswati
Community Development Journal : Jurnal Pengabdian Masyarakat Vol. 5 No. 4 (2024): Volume 5 No. 4 Tahun 2024
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/cdj.v5i4.33447

Abstract

Program Penguatan Kapasitas Ormawa adalah salah satu kegiatan MBKM yang diadakan oleh pemerintahan guna melaksanakan pengabdian dan pemberdayaan masyarakat melalui program penguatan kapasitas ormawa dengan serangkaian proses pembinaan ormawa oleh PT. Kegiatan Program Penguatan Kapasitas Ormawa UKM Olahraga dan Beladiri Universitas Tidar 2024 memiliki 6 program meluputi Sosialisasi cabang olahraga unggulan, Pembentukan Komunitas, Perbaikan Infrastuktur, Pembelajaran dan Pelatihan Cabang Olahraga, Website Treko Sport Village dan Turnamen. Desa Treko memiliki potensi besar menjadi Desa Olahraga karena terdapat fasilitas olahraga yang mewadahi, seperti gedung olahraga dan lapangan olahraga. Hal itu juga didukung dengan adanya minat terhadap berbagai jenis olahraga seperti bola voli, badminton, dan juga karate. Dengan ini, tim Program Penguatan Kapasitas Ormawa menerapkan program Strategic Sport Management. Strategic Sport Management merupakan strategi atau program yang digunakan dalam upaya meningkatkan kualitas arah pengembangan olaharaga sehingga nilai social, ekonomi, dan Kesehatan dapat mengantarkan masyarakat desa menjadi sejahtera. Hasil yang didapat yaitu Tim Program Penguatan Kapasitas Ormawa UKM Olahraga dan Beladiri Universitas Tidar 2024 telah membuat program ini Dengan adanya tempat ini diharapkan dapat meningkatkan daya tarik pada anak-anak di Desa Treko dalam dunia keolahragaan. Sehingga dengan adanya program kepelatihan ini dapat meningkatkan minat serta bakat untuk nantinya dapat melanjutkan sebagai atlet.
Design of Jominy Hardenability Testing Equipment in Accordance with ASTM A255 Standard Muhammad Isdy, Rizky; Listyanda, R. Faiz; Kussuma Hadi Sufyan, M. Fendy; Tafga Arfanindita, Her; Taufik, Ikhwan
Jurnal Rekayasa Mesin Vol. 20 No. 3 (2025): Volume 20, Nomor 3, Desember 2025
Publisher : Mechanical Engineering Department - Semarang State Polytechnic

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32497/jrm.v20i3.7149

Abstract

This study discusses the design and development of a Jominy Hardenability Test apparatus based on the ASTM A255 standard, which is used to determine the hardenability of metallic materials, particularly steel. The purpose of this research is to produce a Jominy testing device that meets standard specifications, perform structural analysis using CAD Software, and evaluate the functional performance of the manufactured tool. The research method consists of several stages, including 3D design using CAD Software, structural analysis simulation with the Finite Element Analysis (FEA) method covering von Mises stress, displacement, and safety factor, followed by the manufacturing process according to the design results. The simulation results show a maximum stress of 2.039 × 106 N/m², a maximum displacement of 5.8 × 10⁻¹ mm, and a safety factor value of 2.6, indicating that the design is structurally safe for production. The manufacturing process uses galvanized as the frame, body material and includes an additional cooling fan to maintain water temperature stability during the quenching process. The functional test results show that the tool can perform quenching effectively, producing a maximum hardness value of 370 VHN and a minimum value of 280 VHN on the steel specimen. This research is expected to contribute as a reference for the development of economical, efficient, and standard ASTM A255 compliant Jominy testing equipment for researh and development.
Kekuatan Mekanik Komposit Hybrid Berpenguat Serat Daun Lidah Mertua – Carbon Fiber untuk Aplikasi Spakbor Sepeda Motor afiyan, nur; Nani Mulyaningsih; R. Faiz Listyanda
J-Proteksion: Jurnal Kajian Ilmiah dan Teknologi Teknik Mesin Vol. 10 No. 2 (2026): J-Proteksion
Publisher : Universitas Muhammadiyah Jember

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32528/jp.v10i2.4566

Abstract

Pengembangan material ringan dan kuat untuk aplikasi otomotif perlu dikembangkan, komposit hybrid berbasis serat daun lidah mertua dan carbon fiber yang disusun dalam beberapa konfigurasi layer. Kajian teori mencakup karakteristik komposit, sifat serat lidah mertua dan carbon fiber, perlakuan alkali NaOH 5%, serta standar uji mekanik ASTM D 6110. Penelitian dilakukan secara eksperimental melalui proses perendaman dan persiapan serat, pembuatan komposit menggunakan metode hand lay-up, serta pengujian impak di laboratorium. Pengumpulan data meliputi pengukuran dimensi spesimen, pencatatan nilai energi serap, serta analisis makro patahan. Hasil penelitian menunjukkan bahwa variasi susunan serat berpengaruh signifikan terhadap performa mekanik komposit, di mana konfigurasi L-K-K-L menghasilkan ketangguhan impak tertinggi sebesar 0,1420 J/mm², Analisis makro menunjukkan adanya cacat seperti void, fiber pull-out, dan matrix-rich yang memengaruhi mutu spesimen. Secara keseluruhan, kombinasi serat alam dan sintetis terbukti dapat meningkatkan kekuatan komposit apabila susunan layer diatur secara optimal.
The Effect of Clay Tile Particle Addition on the Flame Retardancy and Impact Toughness of Ramie Fiber-Reinforced Polypropylene Composites Gibrail, Muhammad; Hastuti, Sri; Listyanda, R. Faiz; Saputra, Eko; Nugroho, Wahyu; Putri, Farika Tono; Indrawati, Ragil Tri; Salahudin, Xander
Jurnal Rekayasa Mesin Vol. 21 No. 1 (2026): Volume 21, Nomor 1, April 2026
Publisher : Mechanical Engineering Department - Semarang State Polytechnic

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32497/jrm.v21i1.7458

Abstract

Environmental concerns regarding polypropylene (PP) plastic waste have driven the demand for more sustainable alternative materials through composite development. This study aims to analyze the effect of adding Sokka roof tile particles as a filler on the flame retardancy and impact toughness of ramie fiber-reinforced composites. The composite materials utilize a polypropylene matrix, ramie fiber reinforcement, and Sokka roof tile particles as filler with concentration variations of 2%, 4%, and 6%. The results demonstrate that increasing the filler volume significantly improves the material's flame-retardant properties, with the 6% variation achieving the best thermal performance and the lowest burn rate of 214.27 mm/min. However, in terms of mechanical properties, a decline in impact toughness was observed as the filler content increased; the average energy absorption dropped from 1.075 Joules at 2% concentration to 0.735 Joules at 6%, which is consistent with the decrease in impact strength from 0.0364 J/mm² to 0.0204 J/mm². This phenomenon indicates that while inorganic particles effectively serve as a thermal barrier, excessively high concentrations increase material brittleness, thereby reducing the impact energy absorption capacity. In conclusion, a 6% concentration of Sokka roof tile particles is recommended for applications prioritizing fire safety, while considering the compromise in mechanical strength.
The effect of cooling media and quenching temperature on the tempering process of AISI 1045 steel. Saputro, Akbar Dicky; Listyanda, R. Faiz; Darmo, Aditya Noor Setyo Hadi; Mulyaningsih, Nani
FLYWHEEL : Jurnal Teknik Mesin Untirta Vol 12, No 1 (2026): April
Publisher : Universitas Sultan Ageng Tirtayasa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62870/fwl.v12i1.36743

Abstract

AISI 1045 steel is widely used in machine components due to its high strength and good wear resistance, but its mechanical properties can still be optimized through heat treatment. This research aims to determine the effect of cooling media and variations in tempering temperature on the characteristics of AISI 1045 steel. The problem studied is how the quenching temperature (800°C and 850°C) and the type of cooling media (25% salt water and biodiesel) influence the tensile strength, hardness, and microstructure of the steel. The research method was carried out experimentally with quenching and tempering heat treatment at a temperature of 550°C for 60 minutes, followed by tensile tests, Vickers hardness tests, and microstructure observations. The research results showed that the highest hardness value was found in the 850°C quenched salt water specimen, which was 576.10 kgf/μm, while the highest tensile strength in the tempered 850°C salt water specimen was 1047.53 MPa, and the highest strain in the tempered 850°C biodiesel specimen was 29.17%. The formed microstructure shows the presence of tempered martensite and fine carbide precipitation, which increases the material’s ductility. In conclusion, the combination of a quenching temperature of 850°C with salt water media.