Article Per Year (5 Year)
p-Index From 2020 - 2025
1.532
P-Index
This Author published in this journals
All Journal Jurnal METTEK (Jurnal Ilmiah Nasional Dalam Bidang Ilmu Teknik Mesin) Jurnal Penelitian Pendidikan IPA (JPPIPA) Jurnal Hilirisasi IPTEKS (JHI) Buletin Ilmiah Nagari Membangun Mechanical Engineering for Society and Industry METAL : Jurnal Sistem Mekanik dan Termal
Oknovia Susanti
Jurusan Teknik Mesin, Universitas Andalas, Padang
Aerospace Engineering Agriculture, Biological Sciences & Forestry Humanities Automotive Engineering Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Control & Systems Engineering Dentistry Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Materials Science & Nanotechnology Mechanical Engineering Nursing Physics Public Health Transportation Veterinary Other

Published : 9 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 9 Documents
Search

 1 
Perlakuan Termomekanik Paduan Mg-Gd Sebagai Material Implan Mampu Luruh Oknovia Susanti; Sri Harjanto; Myrna A Mochtar; Gunawarman Gunawarman
Jurnal Mettek: Jurnal Ilmiah Nasional dalam Bidang Ilmu Teknik Mesin Vol 6 No 1 (2020)
Publisher : Program Studi Magister Teknik Mesin Universitas Udayana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/METTEK.2020.v06.i01.p01

Abstract

Paduan Mg-1,6Gd (wt%) mempunyai potensial sebagai material implan yang mudah larut dalam tubuh. Penambahan Gd kedalam magnesium dan selanjut di proses melalui termomekanik bertujuan untuk memperbaiki sifat-sifat mekanik yaitu kekerasan, kekuatan, ketangguhan dan keuletan dan juga dapat mengontrol laju korosi dalam lingkungan biologis. Perubahan mekanik yang terbentuk akibat penambahan sedikit Gd (1,6wt%) kedalam Mg kemudian diproses termomekanik melalui ekstrusi dan rolling yang dikaitkan dengan hasil strukturmikro melalui ukuran butir dan phasa. Proses termomekanik dilakukan pada temperatur rekristalisasi (400-550 °C) paduan Mg-1,6Gd dengan reduksi 95 %. Pemeriksaan dilakukan di skala labor dengan menggunakan tahap-tahap metalografi dan pengujian tarik dengan ukuran sample yang standar ASTM E8. Uji kekerasan dengan menggunakan alat uji Hardness Vicker dengan berat 300 gram dan ditahan selama 15 detik. Pemerikasaan ini dilanjutkan dengan pengujian laju korosi dengan menggunakan cairan infus. Hasil menunjukan bahwa terjadi perubahan ukuran butir yang siknifikan pada paduan Mg-1,6Gd setelah proses termomekanik terutama pada proses ekstrusi panas yaitu mencapai 14 µm, namun kekerasan tertinggi terdapat pada proses pengerolan yaitu mencapai 50 HVN. Adanya sejumlah presipitat ditemui pada strukturmikro yang dapat mempengaruhi kekerasan akibat pengerolan. Sifat-sifat mekanik paduan Mg-1,6Gd juga dipengaruhi oleh presipitat, dimana kekuatan tertinggi adalah 197 MPa pada pengerolan dibanding ekstrusi hanya mencapai 187 MPa. Meskipun demikian keuletan terbesar dimiliki oleh pengerolan yaitu 26 %, sementara ekstrusi hanya mencapai 24 %. Pada pengujian korosi, pengerolan memiliki laju korosi yang lebih tinggi dibanding laju korosi ekstrusi yaitu 5,7 mmpy dalam larutan Ringer. Kedua proses termodinamik ini mempunyai peluang sebagai material implan yang mudah larut dalam tubuh, namun pengerolan lebih di rekomendasi baik dari sifat mekanik maupun laju korosi yang lebih terkontrol. Mg-1,6Gd (wt%) alloys has potential as a degradable materials implant. The addition of Gd in magnesium and then subsequently processed through thermo-mechanics aims to improve mechanical properties such as hardness, strength, toughness, ductility and can also control the rate of corrosion in the biological environment.Mechanical can be changed by the small addition of Gd (1.6wt%) into Mg are then is processed through extrusion and rolling which are associated with grain size and phase. The thermomechanical process was carried out at a recrystallization temperature (400-550 °C). Mg-1,6Gd alloys was hot rolled with a reduction of 95%. The examination is carried out at a labor scale using metallographic steps and tensile testing with a standard of ASTM E8. Hardness test use the Hardness Vicker with 300 grams and held for 15 seconds. This examination is followed by testing the rate of corrosion using intravenous fluids. The results showed that there was a significant change in grain size in the Mg-1,6Gd alloys after the thermomechanical process, especially in the hot extrusion which reached 14 ?m, but the highest hardness was found in the rolling process which reached 50 HVN. A number of precipitates are found in micro structures that can affect violence due to rolling. The mechanical properties of the Mg-1,6Gd alloys are also affected by the precipitate, where the highest strength is 197 MPa on rolling compared to extrusion reaching only 187 MPa. However, the greatest tenacity is owned by rolling, which is 26%, while extrusion only reaches 24%. In corrosion testing, rolling has a higher corrosion rate than the extrusion corrosion rate of 5.7 mmpy in Ringer's solution. Both of these thermodynamic processes have opportunities as a degradable materials implant, but rolling is more recommended both in terms of mechanical properties and corrosion rates.
PERANCANGAN DAN PEMBUATAN MESIN PEMOTONG PADI SEDERHANA DI DESA PITALAH KABUPATEN TANAH DATAR Oknovia Susanti; Bima Sugesti Arif
Jurnal Hilirisasi IPTEKS Vol 3 No 2 (2020)
Publisher : LPPM Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/jhi.v3i2.422

Abstract

This activities discusses the design and manufacture of a simple rice cutting machine, while its benefits are useful for helping farmers during the harvesting process who have been using sickles as traditional rice cutting tools. A simple rice mower consists of several components, namely the main frame, a 40T blade, a thrower, Yasui YSI-328 lawn mower, and wheels. The design for the main frame uses Galvanized iron with a size of 1 inch, the specification of the Yasui YSI-328 lawn mower is a 2-stroke engine with a capacity of 1.8 HP 7000 rpm, a blade diameter of 40 T is 255 mm, a rice thrower component is useful for arranging rice so that lying sideways after cutting aims to prevent the rice from being stepped on by the next tools and components, to make it easier for the tools to walk under the Artco wheel. Supporting applications in making product design using Solidworks 2014 software so that an image of the product is obtained. The fabrication process is carried out in the workshop until the tool is ready in a form that matches the design in the image. After the tool is complete, the next step is the testing phase. The testing phase is carried out in the rice field. The parameters to be observed are the working capacity when cutting the variation of rpm and fuel consumption. The average value of the working capacity of a simple rice cutting machine during the experiment is 0.0131 ha / hour; 0.0141 ha / hour; 0.0149 ha / hour at each variation of engine rpm, namely 1900 rpm, 3700 rpm and 5000 rpm. While the average working capacity using traditional sickles is 0.0105 ha / hour. The exhausted fuel consumption at variations of 1900 rpm, 3700 rpm and 5000 rpm respectively is 15.3333 l / ha; 14 l / ha and 12.6667 l / ha.
PENGEMBANGAN POTENSI PERTANIAN, KESEHATAN DAN SOSIAL DARI NAGARI PANDAM GADANG KECAMATAN GUNUNG OMEH Oknovia Susanti; Oktafiandes Oktafiandes; Dessy Yunita Sulaiman
BULETIN ILMIAH NAGARI MEMBANGUN Vol 3 No 4 (2020)
Publisher : LPPM (Institute for Research and Community Services) Universitas Andalas Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/bina.v3i4.267

Abstract

The purpose of the activity is to use the knowledge gained during the lecture period to be applied to the community, especially those in remote areas. This activity was carried out at Pandam Gadang, which involved 26 students. Pandam Gadang is a Nagari located in Gunuang Omeh District, Limapuluh Kota Regency. Gunuang Omeh District consists of 3 Nagari, namely Pandam Gadang, Koto Tinggi, and Talang Anau. Pandam Gadang consists of six jorongs, namely Jorong Koto Panjang, Jorong Kampuang Gaduang, Jorong Kampuang Patai, Jorong Ikan Banyak, Jorong Koto Marapak, Jorong Sungai Mangkirai. The problems that are often found in Nagari Pandam Gadang are agricultural problems such as pests and plant diseases and the remaining results of sorting oranges, which reduce productivity in agriculture. Gunuang Omeh sub-district is a district that is famous for its sweet oranges, 95% of the livelihoods of the residents of Nagari Pandam Gadang are farmers, so there are many work programs that students can carry out to improve agriculture in Nagari Pandam Gadang. The implementation of this activity uses training methods, socialization of benefits, and the materials needed and how to make them. The activity results are processing the remaining acidic citrus, which will be processed into orange-flavored jelly candy. Apart from being a new Nagari product, processing these leftover sour oranges can also be a selling point at a more economical price and good for health. It is hoped that Nagari Pandam Gadang will carry out evaluation activities on agricultural products or the obstacles faced every month to maximize agricultural production.
Sifat Mekanik dan Struktur Mikro Logam Paduan Mg-1.6Gd Sebagai Biomaterial yang Larut di dalam Tubuh Oknovia Susanti; Ilhamdi Ilhamdi; Muhammad Ivan Herdian
METAL: Jurnal Sistem Mekanik dan Termal Vol 4, No 1 (2020): Jurnal Sistem Mekanik dan Termal (METAL)
Publisher : Department of Mechanical Engineering, Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1450.392 KB) | DOI: 10.25077/metal.4.1.47-51.2020

Abstract

Recently, the uses of magnesium alloys as implant materials have been potentially applications as biocompatible materials. In this case, the Mg alloys were being concerned because of their mechanical properties that were nearly similar to bones. The addition of Gd in magnesium was in order to control the degradation of magnesium. It is well known that the mechanical properties of Mg-1.6Gd alloys is improved by the small addition. The hardness of the alloys is obtained by the Vickers test with a different position on the samples. The lowest hardness value is 39 HVN, and the highest hardness value is 50 HVN, with the average one is 43.85HVN. Meanwhile, the pure magnesium had 30 HVN. Thus, it could be said that the addition of gadolinium elements could increase the hardness value. Then the tensile test is used a UTM (Universal Testing Machine). The test is used three same untreated samples. From the test are got the ultimate tensile strength of 97-117 MPa, but the ultimate strength of the magnesium is 60 MPa. Microscope optically is used to investigate the microstructure. The grain area is calculated by using the ImageJ program. The result showed that the lowest one is 16  and the highest one is 97.
PENERAPAN ALAT PENDETEKSI KESUBURAN TANAH DAERAH PERTANIAN DI DAERAH TANAH GARAM KOTA SOLOK Oknovia Susanti; Gihan Elja; M. Alfa Rizki
Jurnal Hilirisasi IPTEKS Vol 5 No 4 (2022)
Publisher : LPPM Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/jhi.v5i4.614

Abstract

Soil fertility is a basic component to produce quality agricultural products so that farmers enjoy the results they have fought for continuously. Therefore, a tool was created to help the community in the process of agricultural processing, one of which is by producing a tool to detect soil fertility while farmers are cultivating it. The tool is made in a very simple way using a 100 watt light bulb, 1 inch pipe, T pipe, 2 plugs, 2 electrical wires containing one (red 1 meter black 2 meters), light fittings, glue, plaster/duct tape. Soil fertility check tool made as much as 2 pieces. The working principle of this tool uses the principle of ohm's law (Ω), where when a medium has a small resistance value, the electric voltage it transmits. If there are many of these cations in the soil, the soil can be said to be fertile. But on the contrary, if the light is dim or does not light up, then the conducting value in the soil is of little value, and the soil can be said to be infertile. The demonstration of this soil fertility checker was carried out directly to farmer groups in the hill rice fields, Solok city. The demonstration of making this tool is expected to provide information to farmer groups on how to make simple tools and check their soil without having to buy expensive soil pH measuring devices. The main points conveyed: the meaning of soil fertility and a demonstration of how to make a simple soil fertility check tool.
Rare Earth Elements (REE) Extraction from The Stones Hill at Padang Area by Precipitation Oknovia Susanti; Zeky Azizi
Jurnal Penelitian Pendidikan IPA Vol 10 No 7 (2024): July
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v10i7.8277

Abstract

Rare Earth Elements (REE) are a very important element in modern life such as electronics, materials engineering, and even medicine. Gadolinium (Gd) is one of the REEs that is used as a basic material for implants as well as being used for other basic materials such as a corrosion inhibitor, control rods for nuclear reactors, and others. In this case, the elements are found along hills in the Padang area which have the potential to be produced in large quantities from six rock minerals such as granite, basalt, clay, silica, tuff, and limestone.). Based on the results of identification using the XRF spectrometer test tool, it was found that the six mineral rocks had an abundance of rare earth elements. The results of testing the extraction of Gadolinium Oxide (Gd2O3) using XRF were successfully carried out, Gd2O3 can be extracted by 0.06% - 1.84% in basalt rock, 0.47% - 0.95% in clay rock, and 0% - 0.88% in silica rock. This proves that the main rock minerals from stones have the Rare Earth Elements (REE) and can be extracted with using the Precipitation Extraction method.
Effect of friction reducing devices on wellbore formation Setiati, Rini; Samosir, Samuel Melvern L P; Fathaddin, Muhammad Taufiq; Rakhmanto, Priagung; Susanti, Oknovia; Yanti, Widia
Mechanical Engineering for Society and Industry Vol 5 No 1 (2025)
Publisher : Universitas Muhammadiyah Magelang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31603/mesi.11381

Abstract

Friction is one of the unavoidable factors during drilling. If not properly managed, it can significantly reduce the rate of penetration (ROP), especially in horizontal wells. This research aims to examine the effectiveness of the Friction Reduction Tool (FRT) in managing friction without causing damage to the formation. The FRT is designed to reduce friction between the drill string and the wellbore by minimizing contact. However, its performance is often influenced by two main factors: formation characteristics and drilling parameters. This study analyzes Well X-4, which was drilled without FRT, and Well X-5, which was drilled with FRT from a depth of 2837 m (MD). The analysis focuses on the tool’s impact on stick-slip issues, ROP, and mechanical specific energy (MSE). The results indicate that the use of FRT reduced stick-slip levels and MSE, enabling the drill bit to penetrate the formation more easily. Additionally, activating the FRT from the start increased the penetration rate by 18% compared to drilling without it. These findings suggest that the FRT effectively enhances the drilling rate while preserving the formation integrity.
PENGEMBANGAN POTENSI PERTANIAN, KESEHATAN DAN SOSIAL DARI NAGARI PANDAM GADANG KECAMATAN GUNUNG OMEH Oknovia Susanti; Oktafiandes Oktafiandes; Dessy Yunita Sulaiman
BULETIN ILMIAH NAGARI MEMBANGUN Vol. 3 No. 4 (2020)
Publisher : LPPM (Institute for Research and Community Services) Universitas Andalas Padang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/bina.v3i4.267

Abstract

The purpose of the activity is to use the knowledge gained during the lecture period to be applied to the community, especially those in remote areas. This activity was carried out at Pandam Gadang, which involved 26 students. Pandam Gadang is a Nagari located in Gunuang Omeh District, Limapuluh Kota Regency. Gunuang Omeh District consists of 3 Nagari, namely Pandam Gadang, Koto Tinggi, and Talang Anau. Pandam Gadang consists of six jorongs, namely Jorong Koto Panjang, Jorong Kampuang Gaduang, Jorong Kampuang Patai, Jorong Ikan Banyak, Jorong Koto Marapak, Jorong Sungai Mangkirai. The problems that are often found in Nagari Pandam Gadang are agricultural problems such as pests and plant diseases and the remaining results of sorting oranges, which reduce productivity in agriculture. Gunuang Omeh sub-district is a district that is famous for its sweet oranges, 95% of the livelihoods of the residents of Nagari Pandam Gadang are farmers, so there are many work programs that students can carry out to improve agriculture in Nagari Pandam Gadang. The implementation of this activity uses training methods, socialization of benefits, and the materials needed and how to make them. The activity results are processing the remaining acidic citrus, which will be processed into orange-flavored jelly candy. Apart from being a new Nagari product, processing these leftover sour oranges can also be a selling point at a more economical price and good for health. It is hoped that Nagari Pandam Gadang will carry out evaluation activities on agricultural products or the obstacles faced every month to maximize agricultural production.
Innovation in the Design and Manufacture of Rice Fan Tools Oknovia Susanti; Rizki Afriansyah; Fuadil Fajri Rozali; Yulinda; Hendri Yanda
Jurnal Penelitian Pendidikan IPA Vol 11 No 4 (2025): April
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v11i4.10574

Abstract

Rice is an agricultural product that is the staple food of the Indonesian people, the quality of rice yields is often unsatisfactory, because some of them have empty grains. So that farmers have to separate the filled rice grains from the empty ones manually, this process is considered less efficient. This process takes quite a long time. Therefore, a machine design is needed that can separate the filled grain from the empty grain. This research aims to design a rice fan machine, to make time efficient and to know the comparison between the manual process and the rice separator machine. This tool serves to separate good quality rice grains from grain (empty or imperfect rice grains), so that crop yields can be optimized. The working principle of this tool generally utilizes the difference in density between rice and grain with mechanisms such as air filtration (blower), vibration, or gravity.  In testing, the rice and grain fan showed a high level of accuracy in separation, with a capacity that can be adjusted based on the needs of farmers. This machine is able to separate rice 10kg/minute, which previously only 6kg/hour, there is an increase in the work efficiency of the tool in separating rice.
Co-Authors Bima Sugesti Arif Dessy Yunita Sulaiman Dessy Yunita Sulaiman Fuadil Fajri Rozali G Gunawarman, G Gihan Elja Hendri Yanda Ilhamdi Ilhamdi M. Alfa Rizki Muhammad Ivan Herdian Muhammad Taufiq Fathaddin, Muhammad Taufiq Myrna A Mochtar Oktafiandes Oktafiandes Oktafiandes Oktafiandes Rakhmanto, Priagung Rini Setiati Rizki Afriansyah Samosir, Samuel Melvern L P Sri Harjanto Widia Yanti, Widia Yulinda Zeky Azizi