Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney

Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney

Customized local road vehicles (CLRV) in the Philippines have not been tested for crashworthiness and testing of such comes with great amount of resources. These vehicles are used nationwide and creating a baseline for its standardization is a must to ensure safety of the passengers and its cargo. T...

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Main Authors: Clavecillas, Ryan C., Bathan, Gharry M., Maglantay, Remartin S., Rogelio, Jayson P., Munsayac, Francisco Emmanuel T., Baldovino, Renann G.
Format: text
Published: Animo Repository 2019
Subjects:
Automobiles—Crashworthiness > Philippines
Tricycles—Crashworthiness > Philippines
Automobiles—Customizing > Philippines
Tricycles—Customizing > Philippines
Finite element method
Computer-aided design
Manufacturing
Mechanical Engineering
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/2939
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Institution: De La Salle University
id oai:animorepository.dlsu.edu.ph:faculty_research-3938
record_format eprints
spelling oai:animorepository.dlsu.edu.ph:faculty_research-39382021-11-17T05:52:11Z Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney Clavecillas, Ryan C. Bathan, Gharry M. Maglantay, Remartin S. Rogelio, Jayson P. Munsayac, Francisco Emmanuel T. Baldovino, Renann G. Customized local road vehicles (CLRV) in the Philippines have not been tested for crashworthiness and testing of such comes with great amount of resources. These vehicles are used nationwide and creating a baseline for its standardization is a must to ensure safety of the passengers and its cargo. Thereupon, a study on crashworthiness of CLRV structures is imperative. The non-linear finite element analysis (FEA) approach to study crashworthiness was not a popular choice in the past due to technological constraints and the excessive cost it entails in comparison to the other approaches. But with today's technological advancements, FEA modeling and analysis of large-scale structures are processes that can be executed. With that, the FEA Design Center Facility of the Metals Industry Research and Development Center (MIRDC) was able to evaluate the crashworthiness of the CLRV. In this project, CAD and FEA models were created to simulate the actual crash testing used to evaluate its crashworthiness. The CAD and FEA construction are based on available engineering standards and the simulation aims to investigate the crashworthiness of the CLRV. The CAD model was constructed using a 3D scanner and reverse engineering tools such as Geomagic Design X and SIEMENS NX. The FEA model were developed in SIEMENS NX and imported to Pre-Sys VPG, which has set of tools for setting up the crash test simulations. © 2018 IEEE. 2019-02-22T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/2939 Faculty Research Work Animo Repository Automobiles—Crashworthiness--Philippines Tricycles—Crashworthiness--Philippines Automobiles—Customizing--Philippines Tricycles—Customizing--Philippines Finite element method Computer-aided design Manufacturing Mechanical Engineering
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Automobiles—Crashworthiness--Philippines
Tricycles—Crashworthiness--Philippines
Automobiles—Customizing--Philippines
Tricycles—Customizing--Philippines
Finite element method
Computer-aided design
Manufacturing
Mechanical Engineering
spellingShingle Automobiles—Crashworthiness--Philippines
Tricycles—Crashworthiness--Philippines
Automobiles—Customizing--Philippines
Tricycles—Customizing--Philippines
Finite element method
Computer-aided design
Manufacturing
Mechanical Engineering
Clavecillas, Ryan C.
Bathan, Gharry M.
Maglantay, Remartin S.
Rogelio, Jayson P.
Munsayac, Francisco Emmanuel T.
Baldovino, Renann G.
Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney
description Customized local road vehicles (CLRV) in the Philippines have not been tested for crashworthiness and testing of such comes with great amount of resources. These vehicles are used nationwide and creating a baseline for its standardization is a must to ensure safety of the passengers and its cargo. Thereupon, a study on crashworthiness of CLRV structures is imperative. The non-linear finite element analysis (FEA) approach to study crashworthiness was not a popular choice in the past due to technological constraints and the excessive cost it entails in comparison to the other approaches. But with today's technological advancements, FEA modeling and analysis of large-scale structures are processes that can be executed. With that, the FEA Design Center Facility of the Metals Industry Research and Development Center (MIRDC) was able to evaluate the crashworthiness of the CLRV. In this project, CAD and FEA models were created to simulate the actual crash testing used to evaluate its crashworthiness. The CAD and FEA construction are based on available engineering standards and the simulation aims to investigate the crashworthiness of the CLRV. The CAD model was constructed using a 3D scanner and reverse engineering tools such as Geomagic Design X and SIEMENS NX. The FEA model were developed in SIEMENS NX and imported to Pre-Sys VPG, which has set of tools for setting up the crash test simulations. © 2018 IEEE.
format text
author Clavecillas, Ryan C.
Bathan, Gharry M.
Maglantay, Remartin S.
Rogelio, Jayson P.
Munsayac, Francisco Emmanuel T.
Baldovino, Renann G.
author_facet Clavecillas, Ryan C.
Bathan, Gharry M.
Maglantay, Remartin S.
Rogelio, Jayson P.
Munsayac, Francisco Emmanuel T.
Baldovino, Renann G.
author_sort Clavecillas, Ryan C.
title Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney
title_short Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney
title_full Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney
title_fullStr Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney
title_full_unstemmed Design and finite element analysis of customized local road vehicles (CLRV): The case for the tricycle and the Philippine jeepney
title_sort design and finite element analysis of customized local road vehicles (clrv): the case for the tricycle and the philippine jeepney
publisher Animo Repository
publishDate 2019
url https://animorepository.dlsu.edu.ph/faculty_research/2939
_version_ 1718382717367746560

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