A Study of Car Body Effects on the Performance of Vehicle Antennas

Lin, Meng-yi

29 December 2004

In this study, we establish a car body PEC model by using a NEC-2-based numerical software. Based on this model, we then carry out a series of simulations and analysis in the FM band concerning the effects of various car structures on antenna patterns. The results have been compared with those available in open literature in order to verify our model. The simulation results show that the roof support pillars significantly affect the antenna patterns. We investigate the ripples caused by the finite ground plane in the antenna patterns, and propose a new edge treatment technique. Our results indicate that a significant reduction of these unwanted ripples can be obtained, if the proposed technique is applied. The effect of car glasses and human body is also taken into consideration. At last, the issue of studying the effects at higher frequencies is addressed. Two approaches are used, including UTD, and PO. Satisfactory results are obtained.

Finite ground plane

Car body PEC model

Edge treatment technique

Karoserie sportovního automobilu / Sport car body

Janda, Tomáš

January 2011

The master´s thesis is focused on construction of one-man car body of sports car. Work contains aerodynamic analysis of car body too and optimization of the CAD model.

Návrh designu vozu Mitsuoka Kit Car / Mitsuoka Kit Car Design

Kratochvíl, Jaroslav

January 2011

A dissertation deals with small single-placed car body design (so-called microcar cathegory). The new design is based on the undercart and the engine of serial Mitsuoka Kit Car. Therefore the aim belongs to re-design tasks. Analytical part of the dissertation deals with two basic questions influencing the final draft. The Corporate identity at first and a problematic of the target group level of aesthetical perception linked to preferred design. On grounds of analysis the core values for new design have been set down. The particular values have been presented with the help of existing reference objects from the field of automotive design. This part also includes a questionnairy, which had been focused on prefered design conception. Due to low microcars topic awareness in Czech Republic, the questionnairy had informational character and the final design conception has been chosen on the base of functional aspects analysis. The final design development, shown on sketches and basic software renderings, is based on gradual steps that lead to the core values expression with regards to input parameters and basic design rules as well. The final design is introduced together with description of its technical solution and detailed design. The solution respects the mentioned target group and the institution Corporate Identity.

Multi-Functional Composite Design Concepts for Rail Vehicle Car Bodies

Wennberg, David

January 2013

Structures and material combinations, tailored for multiple purposes, are within the reach of vehicle manufacturers. Besides reducing the environmental impact of the transportation sector these multi-functional structures can reduce costs, such as development, manufacturing and maintenance, and at the same time offer improved comfort to the passengers. This thesis sets out to develop multi-functional design algorithms and evaluate concepts for future composite high speed train car bodies with the objective of optimising the amount of mass needed to fulfil all functions of the structure. In a first step complete composite car bodies were developed, optimised and evaluated based on global stiffness requirements and load cases. The knowledge gained in this step was used as requirements for the strength and stiffness of panels during the continued development of the multi-functional optimisation which, besides strength and stiffness, later also considers sound transmission, thermal insulation, geometric restrictions, manufacturability and fire safety. To be able to include fire safety in the analysis, a method for simulating the high temperature response of layered composite structures was needed, and developed. Significant weight reductions are proven when utilising carbon fibre in the load carrying structure of the vehicle, on component level as high as 60%. Structures can be made significantly thinner when using the algorithms developed in this thesis and wall thickness is reduced by 5-6 cm. Analysis carried out and extensive literature surveys also suggest significant cost savings in manufacturing, maintenance and use-phase, even thou the raw material cost can be significantly higher as compared to the conventional steel or aluminium alternatives. Results from drive cycle simulations showed that the benefit, with respect to reduced energy consumption, is in the range of 0.5-0.8% per reduced weight percentage, comparable to both automotive and air applications. The algorithms and methods established in this thesis can be directly applied for the development and analysis of future high speed train car bodies. / <p>QC 20130521</p>

Car body

Composite

Finite element

Lightweight

Multi-discipline

Multi-functional

Optimisation

Rail Vehicles

Sandwich Panels

Konceptutveckling av solbilskaross / Concept development of solar car body

Månsson, Emil, Helgesson, Tobias

January 2020

“Development of a solar car body” is a bachelor thesis done at Jönköping University by two students studying mechanical engineering with a focus on product development and design. The project has been done for JU Solar Team, an organization where student develop and build a solar powered electric car with which they then use in the competition Bridgestone World Solar Challenge. The body of the 2019 solar car is made from a carbon fiber monocoque which means that the body and chassis is made from one integrated component. This type of construction is both costly and complex and it has created a lot of trouble in the post processing of the body after it is received from the developer. The following report is explaining a conceptual development process of module-based body construction. The purpose is to simplify the development and allow for easier modification. Furthermore, the aim of the project has been to make it possible to move most of the production in-house at Jönköping University and show a concept that JU Solar Team can use in the development of upcoming solar car projects. Initially the project studied earlier CFD-simulations that has been made on the solar car from 2019 which was used as a basis for dividing the car into different modules. Since the aim was to make it possible to move the production in-house at Jönköping University it was deemed that 3D-printing was a plausible method for this, which the rest of the project was based upon. Conventional product development methods were then used to generate possible solutions that developed into a finished concept. Different types of methods for joining modules together have been explored which meet the defined criteria. Since a low weight that maximizes energy efficiency is essential when designing a car like this, a topology optimization process was used to study where material could be removed. This optimized construction was then verified by studying the static stress in the body, as well as comparing different materials based on weight, maximum stress and safety factors. The project resulted in a topologically optimized and module-based prototype where 30% of the original volume has been removed. The report ends with recommendations of materials and joining techniques as well as comments for further development of upcoming solar car projects. / ”Konceptutveckling av solbilskaross” är ett examensarbete utfört vid Jönköpings Tekniska Högskola inom utbildningen maskinteknik, produktutveckling och design. Projektet har genomförts i samarbete med JU Solar Team, en organisation där studenter utvecklar och tillverkar en soldriven elbil som medverkar i tävlingen Bridgestone World Solar Challenge. 2019 års solbilskaross är av en kolfiber-monocoque konstruktion vilket innebär att kaross och chassi är integrerat i en komponent. Denna konstruktion har skapat begränsningar vid efterhandskonstruktioner samt medfört en komplex och resurskrävande tillverkning. Följande rapport behandlar en konceptutvecklingsprocess av en modulbaserad karosskonstruktion med syfte att underlätta vid produktförändringar samt simplifiera tillverkningen. Vidare har projektets mål även varit att möjliggöra en tillverkning vid Jönköping University och påvisa ett koncept som JU Solar Team kan utnyttja till kommande solbilsprojekt. Inledningsvis i projektet analyserades tidigare CFD-simuleringar av 2019 års solbil vilket lade grunden för modulindelningen av karossen. Med anledning av att möjliggöra en tillverkning vid Jönköping University bedömdes additiv tillverkning vara en tillämplig metod vilket projektet sedermera utgick ifrån. Konventionella produktutvecklingsmetoder tillämpades för att generera lösningsförslag som sedan kunde bedömas och vidareutvecklas. Olika sammanfogningstekniker undersöktes för att studera hur de framtagna modulerna kan monteras baserat på uppsatta kriterier. Eftersom en låg strukturvikt är essentiellt för att maximera energieffektiviteten genomfördes en topologioptimeringsprocess för att studera var material kan avlägsnas. Den optimerade konstruktionen verifierades sedan genom spänningsberäkningar och analys av olika material baserat på vikt, maxspänning och säkerhetsfaktor. Projektet resulterade i ett topologioptimerat och modulbaserat koncept av karossen där 30% av ursprungsvolymen har avlägsnats. Rapporten avslutas med rekommendationer av materialval och sammanfogningsmetod, samt kommentarer för vidare arbete till kommande solbilsprojekt.

Concept development

car body

topology optimization

Konceptutveckling

kaross

topologioptimering

Mechanical Engineering

Maskinteknik

Výškový sklad pro lakované karoserie / High-bay warehouse for lacquered bodywork

Bachorík, Patrik

January 2018

The aim of this diploma work was a design of a high-bay warehouse for lacquered car bodywork with focus on the issue of a conveyer line and its incorporation into the existing material flow in company Skoda Auto a.s.. Three variants of the warehouse for the lacquered car bodywork were proposed and described. For each one of them, a time analysis of car bodywork removal from the storage was carried out. The thesis was ended with a complex evaluation of the three variants according to chosen criteria, based on which the best variant was selected. That one was further depicted in layout documentation.

Návrh techologie výroby plechového dílce karoserie automobilu / Proposal technology of production scheet-metal part of car body

Sviták, Martin

January 2009

The Master’s Thesis is focused on stamping of sheet metal parts. The analyzed part is a structural part of an automobile body. The part is made of DC04 (cold rolled mild steel) material. The annual pruduction volume is 10.000 pieces. Theoretical background research is a knowledge base for design of tooling that can produce parts which meet quality requirements. There are three technological processes proposed in the Thesis. An economic analysis identifies the optimal technological process for the production volume. The thesis contains a complex analysis that confirmes material formability. Computer simulation verifies the part design, material and technological parameters of the forming process.

Laserové pájení v automobilním průmyslu / Laser brazing in the car industry

Podstavek, Michal

January 2014

The project elaborated in frame of engineering studies of the subject M-STG Mechanical Engineering describes elementary methods of joining in the automotive industry. Moreover, it inquires into optimization of laser brazing on the back cover ŠKODA Superb. During the optimization of the process six samples were designed, and the adjustment of the brazing parameters were performed. Consequently, the samples were evaluated by tensile and metallographic tests. Finally, EDS analysis was performed and visual assessment as well.

Návrh designu vozu Mitsuoka Kit Car / Mitsuoka Kit Car Design

Kratochvíl, Jaroslav

January 2011

A dissertation deals with small single-placed car body design (so-called microcar cathegory). The new design is based on the undercart and the engine of serial Mitsuoka Kit Car. Therefore the aim belongs to re-design tasks. Analytical part of the dissertation deals with two basic questions influencing the final draft. The Corporate identity at first and a problematic of the target group level of aesthetical perception linked to preferred design. On grounds of analysis the core values for new design have been set down. The particular values have been presented with the help of existing reference objects from the field of automotive design. This part also includes a questionnairy, which had been focused on prefered design conception. Due to low microcars topic awareness in Czech Republic, the questionnairy had informational character and the final design conception has been chosen on the base of functional aspects analysis. The final design development, shown on sketches and basic software renderings, is based on gradual steps that lead to the core values expression with regards to input parameters and basic design rules as well. The final design is introduced together with description of its technical solution and detailed design. The solution respects the mentioned target group and the institution Corporate Identity.

Medieteknisk simulation inom utbildning.

Pettersson, Gustav, Evertsson, Alexander

January 2023

En undersökning om Simulation inom utbildningsområdet, med hjälp av medieteknik. I artikeln diskuteras bland annat hur erfarenhet-baserad undervisning, som en digitalsimulation med fysiska kontroller, kan vara ett utmärkt tillägg för hur man undervisar. Dessutom kan det vara ett sätt att ge en individ mer självförtroende och får hen att mer tänkaundermedvetet hur arbetet kan göras bättre. För att utreda detta har arbetet fokuserat på en typav simulation, nämligen inom truckkörning. Undersökningen har också samarbetat med Volvo Car Body Components för att se vad de upplever som risker inom truckkörning, och vad som då borde fokuseras på en sådan simulation.Simulation har sedan presenterats för deltagare med och utan kompetens i truckkörning, föratt sedan utreda om de känner att de skulle kunnat använda upplevelsen undermedvetet somerfarenhet för framtida strävanden. Det är diskuterbart om resultatet på undersökningen är användbar eller inte, då mängden avdeltagare kunde har varit större. Dock kan det argumenteras för att arbetet gjort ger chansenför flera undersökningar inom simulation-baserad undervisning att kunna visa att bara för ettsätt av utbildning funkar, betyder inte det att det finns det sätt att göra något bättre.

Simulation Based Learning

Volvo Car Body Components

Unity

Simulation

Undervisning

Medieteknik

Gaffeltruck

Truckkörning

Philosophy

Filosofi