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All Journal Mechatronics, Electrical Power, and Vehicular Technology Mesin
Mardiyati, Yati
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Electrical & Electronics Engineering Mechanical Engineering

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Optimasi Parameter Pencetakan dan Evaluasi Sifat Mekanis Filamen Poliuretan Termoplastik dalam Pencetakan 3D Delima, Hastuti; Mardiyati, Yati; Andami, Helmina; Steven, Steven; Rizkiawan, Sandi
Mesin Vol 30 No 2 (2025)
Publisher : Faculty of Mechanical and Aerospace Engineering

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5614/MESIN.2025.30.2.2

Abstract

Termoplastik poliuretan (TPU) merupakan salah satu jenis polimer termoplastik yang saat ini sangat menarik perhatian pengguna mesin pencetakan 3D. Filamen TPU memiliki sifat elastis, kekuatan tarik dan ketahanan terhadap benturan yang baik sehingga sangat potensial untuk digunakan dalam proses pembuatan produk pada berbagai aplikasi. Walaupun demikian, dikarenakan sifat elastisnya, proses pencetakan TPU dinilai cukup sulit sehingga perlu dilakukan kajian untuk mengidentifikasi kecepatan cetak, kecepatan retraksi, temperatur cetak, dan jarak retraksi optimum untuk mencetak filamen TPU. Dalam penelitian ini, dilakukan kajian terkait penentuan parameter cetak optimum untuk mencetak filamen TPU. Parameter cetak optimum yang diperoleh kemudian digunakan untuk mencetak sampel pengujian tarik. Pengujian tarik pada sampel yang dihasilkan dilakukan dengan mengacu pada ASTM D 638-14. Berdasarkan hasil penelitian yang dilakukan, temperatur cetak, kecepatan cetak, jarak retraksi dan kecepatan retraksi optimum untuk mencetak filamen TPU adalah sebesar 230°C, 40 mm/s, 1 mm, dan 40 mm/s secara berturut-turut. Sampel yang dicetak dengan arah 0 memiliki kekuatan tarik yang lebih tinggi dibandingkan dengan spesimen yang dicetak dengan arah 90°.
KAJI NUMERIK GROUND PAD SHOE KENDARAAN TEMPUR DENGAN MODEL MATERIAL HYPERELASTIC Rachmat, Angki Apriliandi; Dirgantara, Tatacipta; Suweca, I Wayan; Mardiyati, Yati
Mesin Vol 30 No 1 (2024)
Publisher : Faculty of Mechanical and Aerospace Engineering

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.5614/MESIN.2024.30.1.5

Abstract

One of the important components on a combat vehicle is the ground pad shoe (GPS) or track pad. GPS that has been developed at this time mostly uses rubber material. Rubber raw materials themselves are found in Indonesia in large amount. Indonesia left 3 million tonnes of natural rubber unprocessed in 2018. On the other hand, natural rubber research is quite expensive and takes a long time to become a product. To make rubber products is needed special molds and tests. To solve the high costs and long time involved in rubber research, it is necessary to carry out numerical research. In this study, a numerical study of GPS rubber for combat vehicles was carried out with a hyperelastic material model. The research was conducted experimentally and numerically. Tensile testing is carried out on imported GPS samples which are then used as comparison data for numerical studies. The Mooney-Rivlin, Neo-Hookean, Yeoh, and Ogden hyperelastic models were varied to get the stress and strain values ​​closest to the experimental test. The results of the numerical study show that the best hyperelastic model for the imported GPS rubber model is the Neo-Hookean model. The tensile strength of GPS according to the experimental tensile test results is 16.93 MPa, while the result of the finite element method (FEM) is 16.75 MPa. The GPS modulus 200% according to the experimental tensile test results is 14.7 mm/mm, while the FEM result is 15.3 mm/mm. The difference between the FEM and experimental test values ​​for tensile strength and modulus 200% are below 5%. Maximum stress on GPS is 4,4 MPa and safety factor 3,8.
Co-Authors Andami, Helmina Delima, Hastuti I Wayan Suweca Rachmat, Angki Apriliandi Ramadhan, Muhammad Hisyam Rizkiawan, Sandi Steven Steven Tatacipta Dirgantara, Tatacipta