Desain Iterasi Dudukan Pelat Pengukur Gaya Pada RIG Alat Uji Jatuh Bebas Menggunakan Optimasi Topology

Jurnal Teknologi Kedirgantaraan Pub Date : 2022-08-01 DOI:10.35894/jtk.v7i2.56

Ilham Maulana, Sahril Afandi, Bismil Rabeta, Rizky Fitriansyah, Abian Nurrohmad

{"title":"Desain Iterasi Dudukan Pelat Pengukur Gaya Pada RIG Alat Uji Jatuh Bebas Menggunakan Optimasi Topology","authors":"Ilham Maulana, Sahril Afandi, Bismil Rabeta, Rizky Fitriansyah, Abian Nurrohmad","doi":"10.35894/jtk.v7i2.56","DOIUrl":null,"url":null,"abstract":"Abstract -. This research was conducted based on data obtained during testing at LAPAN (Lembaga Antariksa dan Penerbangan Nasional), where there was a case that became a concern. The test is about the free fall test, which results in a deflection that is considered too large. From these results it was decided to investigate further. This free fall test uses impact testing where a material is measured for its shock load resistance. Impact testing simulates the operating conditions of a material where the loading that occurs is not only in static conditions but also occurs in dynamic conditions. In the free fall test, a test was carried out to measure and see the resistance of the landing gear and crash box in receiving dynamic loads, when the aircraft landed. The main purpose of simulating this tool is for research and development of the free fall test equipment itself, as well as the design of the landing gear of the LSU (Lapan Survaillance UAV) drone in the future. The impact platform on the free fall test equipment plays an important role in impact testing, where the deformation of the plate holder will be converted by the load cell, into a signal received by the acquisition system. So it is designed to fit the existing needs. In this test equipment, the test object is given a load (50 kg and 200 kg), height (4.72 m and 1,204 m), so that it reaches a velocity (9,623 m/s and 4,861 m/s) with impactor crash box geometry and main landing gear as well as plate holder design based tools in the field. Based from testing, impact, and analysis using the finite element method in this study, it was found that the deflection value was 1.771 mm which reduced 94.61% for the crash box case and the deflection value was 2.696 mm with a reduction value of 87.85 % for the main landing gear case from the existing initial design. \nKeywords: Free fall test equipment, impact platform, landing gear, plate mount, main landing gear, crash box, finite element method, LSU.","PeriodicalId":354117,"journal":{"name":"Jurnal Teknologi Kedirgantaraan","volume":"23 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2022-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Jurnal Teknologi Kedirgantaraan","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.35894/jtk.v7i2.56","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Abstract -. This research was conducted based on data obtained during testing at LAPAN (Lembaga Antariksa dan Penerbangan Nasional), where there was a case that became a concern. The test is about the free fall test, which results in a deflection that is considered too large. From these results it was decided to investigate further. This free fall test uses impact testing where a material is measured for its shock load resistance. Impact testing simulates the operating conditions of a material where the loading that occurs is not only in static conditions but also occurs in dynamic conditions. In the free fall test, a test was carried out to measure and see the resistance of the landing gear and crash box in receiving dynamic loads, when the aircraft landed. The main purpose of simulating this tool is for research and development of the free fall test equipment itself, as well as the design of the landing gear of the LSU (Lapan Survaillance UAV) drone in the future. The impact platform on the free fall test equipment plays an important role in impact testing, where the deformation of the plate holder will be converted by the load cell, into a signal received by the acquisition system. So it is designed to fit the existing needs. In this test equipment, the test object is given a load (50 kg and 200 kg), height (4.72 m and 1,204 m), so that it reaches a velocity (9,623 m/s and 4,861 m/s) with impactor crash box geometry and main landing gear as well as plate holder design based tools in the field. Based from testing, impact, and analysis using the finite element method in this study, it was found that the deflection value was 1.771 mm which reduced 94.61% for the crash box case and the deflection value was 2.696 mm with a reduction value of 87.85 % for the main landing gear case from the existing initial design. Keywords: Free fall test equipment, impact platform, landing gear, plate mount, main landing gear, crash box, finite element method, LSU.

查看原文本刊更多论文

试验场平台上的电盖盖设计采用地形优化器自由落体

抽象的-。这项研究是根据LAPAN (Lembaga Antariksa dan Penerbangan Nasional)检测期间获得的数据进行的，那里发生了一个令人担忧的病例。这个测试是关于自由落体测试的，它会导致被认为太大的偏转。根据这些结果，决定进一步调查。这种自由落体试验使用冲击试验，测量材料的抗冲击载荷能力。冲击试验模拟材料的工作条件，其中发生的载荷不仅在静态条件下，而且在动态条件下发生。在自由落体试验中，进行了一项测试，以测量和观察飞机着陆时起落架和碰撞箱在接受动载荷时的阻力。模拟该工具的主要目的是为了自由落体试验设备本身的研发，以及未来LSU (Lapan surveillance UAV)无人机起落架的设计。自由落体试验设备上的冲击平台在冲击试验中起着重要的作用，其中板架的变形将被测力元件转换成采集系统接收的信号。所以它的设计是为了满足现有的需求。在该测试设备中，测试对象被赋予负载(50 kg和200 kg)，高度(4.72 m和1204 m)，使其达到速度(9,623 m/s和4,861 m/s)，碰撞箱几何形状和主起落架以及基于现场工具的板架设计。通过试验、冲击和有限元分析，发现碰撞箱的挠度值为1.771 mm，比原有初始设计减小了94.61%;主起落架的挠度值为2.696 mm，比原有初始设计减小了87.85%。关键词:自由落体试验设备，冲击平台，起落架，板架，主起落架，碰撞箱，有限元法，LSU

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Jurnal Teknologi Kedirgantaraan

自引率

0.00%

发文量