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All Journal IPTEK The Journal of Engineering Jurnal Nasional Aplikasi Mekatronika, Otomasi dan Robot Industri (AMORI)
Rizaldy Hakim Ash Shiddieqy
Department Of Industrial Mechanical Engineering, Institut Teknologi Sepuluh Nopember, Kampus ITS Sukolilo, Surabaya, 60111, Indonesia.
Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Control & Systems Engineering Electrical & Electronics Engineering Engineering Mechanical Engineering

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Journal : IPTEK The Journal of Engineering

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Automated Pet Feeder Called Smart Pakan using 3D Printer with Open Source Control System Rizaldy Hakim Ash Shiddieqy; Bayu Adhi Saputro; Fatan Odhi Dandha; Liza - Rusdiyana
IPTEK The Journal of Engineering Vol 6, No 2 (2020)
Publisher : Lembaga Penelitian dan Pengabdian kepada Masyarakat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.12962/j23378557.v6i3.a7896

Abstract

In this paper, an automatic pet feeding machine is built using the 3D Printer machine and an opened source control system to help people with busy activities to be able to feed their pets on time. The machine is built using 3D Printer machine. The control system is built using the NodeMCU ESP8266 platform module and ultrasonic sensors. The controlling device uses a smartphone that is installed blynk application software that has the principle of the Internet of Things. The machine works by opening it’s valve to control the water’s discharge, a servo motor to open the feed container, as well as a timer to regulate the time of feeding. The valve can be set in 4 conditions. There are 10 degrees, 20 degrees, 30 degrees and up to 40 degrees. Then for the feed distance’s display it will provide information about the distance of the feed to the sensor, for a maximum distance of 9 cm in accordance with the distance sensor attached to the roof of the feed container with the sensor attached to the bottom of it. This machine can work continuously and automatically as long as there is an electricity source in the house and the owner holds the control of the blynk application software on their phone..
Optimation Front Upright Racing Car Using Finite Element Analysis Fitra Bagus Hendi Prabowo; Rizaldy Hakim Ash Shiddieqy; Winarto Winarto; Nur Husodo; Mahirul Mursid; Bayu Adhi Saputro
IPTEK The Journal of Engineering Vol 8, No 1 (2022)
Publisher : Lembaga Penelitian dan Pengabdian kepada Masyarakat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.12962/j23378557.v8i1.a10785

Abstract

Upright is part of the car's suspension system that plays an important role in creating and comforting the car. Supporting driving safety, upright components must be designed to be light but strong to withstand loading when the car is in conditions of acceleration, deceleration and cornering. Not only strong as a benchmark, but components must also be lightweight, so we need a method, namely a topology optimization method. Using finite element software makes the optimization process very easy and very fast with maximum accuracy. The process is by inputting the model from CAD software, defining materials, input constraints and vector styles, meshing process, and finally the solution process. From the simulation results, it will be known the value of the solution in the form of stress, deformation and safety factor of the upright component. From several topology optimization designs, they will be compared to find out which is the best design which will be used as a design recommendation. By referring the result, 43% mass reduction is the best optimum design, its safety factor is 4.956.
Co-Authors Adhim, Fauzi Imaduddin Bayu Adhi S. Bayu Adhi Saputro Bayu Adhi Saputro Bayu Firman S. Bayu Mahardika Brian Raafi'u Doni Kristiawan G. Farid R. Fatan Odhi Dandha Fitra Bagus Hendi Prabowo Fitri Adi Iskandarianto Liza Rusdiyana Mahirul Mursid Mashuri Mashuri Maulana - Mohammad Ibnu Abbas Nur Husodo Purwadi Agus Darwito Rakmad Amrinsyah Badrul Alam Reynaldi A. Titin Nur Fadilah Winarto Winarto