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1	Utveckling av verktyg i NX/Teamcenter : Implementering av effektiviserade och automatiserade arbetssätt för hantering av formytor och spegling av presshärdningsverktyg Hellström, Jonas January 2017 (has links) Detta examensarbete har genomförts hos Gestamp Hardtech i Luleå på Tooling Design-avdelningen. Idag arbetar företaget med både I-DEAS och NX för att konstruera presshärdningsverktyg som används för att tillverka säkerhetsdetaljer för bilar. Under examensarbetet har jag studerat den metodik som används av konstruktörerna när de arbetar i NX och utför trimning av formdelar och spegling av presshärdningsverktyg. Idag sker det här arbetet manuellt vilket leder till många steg som måste utföras av konstruktörerna för varje trimning eller spegling. Det leder till att arbetet blir både tidskrävande och att risken för fel ökar eftersom det inte finns något enkelt sätt för konstruktörerna att kontrollera att trimning har skett med rätt formyta eller att alla namn på de speglade delarna stämmer. Arbetet resulterade i två program som konstruktörerna kan använda i NX för att underlätta deras arbete. Båda programmen är begränsade så att all inmatning av data sker i första dialog rutan som kommer upp då programmet startas. Genom att indata samlas in under ett steg minskas risken för fel och gör arbetsprocessen lättare för konstruktörerna. Utvecklingen av båda programmen har genomförts med hjälp av Visual Studio från Microsofts som är deras eget IDE, Integrated Development Environment. Enligt de standarder som Hardtech lagt fram så skall Visual basic användas som programmeringsspråk. För att de färdiga programmen ska kunna kommunicera med NX har jag använt mig av NX API till båda lösningarna. För att kontrollera resultaten i projektet och kontrollera så att programmen har fått rätt funktioner har konstruktörerna fått prova på att använda båda programmen i verkliga projekt och kommit med feedback. / This master thesis has been conducted at Gestamp Hardtech in Luleå at their Tooling department. Today the designers uses 3D CAD such as I-DEAS and NX to develop and build press-hardening tools that are used in the manufacturing of safety details for the automotive industry. This thesis discuss the methods that are used today by the designers to shape the forming dies and the mirroring of a presshardeningtool and how this work can be improved. Today, both the shaping of the forming dies and the mirroring of a presshardningtool are done manually. This work is done in many steps by the designers and the designers can easily make errors especially since there is no easy way for the designers to check if the forming dies have the correct geometry. The manual process is therefore very error prone and improvements are very much needed. As part of this work, two programs have been developed for NX for the designers to use in order to reduce the risk for errors during the process of shaping the forming dies and mirroring the presshardningen tool. A lot of focus has been spent on making the programs as easy to use as possible e.g. collecting all input data at the start of the program and designed the product as close as possible to a One Button Interface. Both of the programs have been developed with Microsofts own IDE, Visual Studio, and the code is structured according to the guidelines that was given by Hardtech. The programing language used for both programs are VB.NET. To make sure that the communication between NX and the program NX own API is used. The validation process for both solutions have been in the form of interviews and discussions with the tool designers. Through the entire project, the tool designers have tested and validated the programs in both test environments and real projects. Teamcenter NX NX Open Utveckling av verktyg
2	Metodutveckling av virtuella byggnationer på Saab Automobile AB / Development of a method in virtual manufacturing at Saab Automobile AB Sikström, Moa, Wisén, Nathalie January 2010 (has links) <p>Saab Automobile AB i Trollhättan är i behov av en förbättrad metod för virtuella byggnationer som beredningen kan använda sig av i biltillverkningen. Genom att skapa en processtruktur i befintligt PLM-system som kan kommunicera och hämta data från den produktstruktur som redan finns skulle mycket arbete kunna sparas. Idag använder beredarna sig av ett visualiseringsprogram som man kopplar produktstrukturen till. Enligt nuvarande metod bygger beredarna upp en struktur i detta visualiseringsprogram som fungerar som en processtruktur inför varje ny projektgrind. Denna struktur går inte att enkelt uppdatera och därför måste en ny skapas inför varje ny projektgrind. På detta sätt blir de virtuella byggnationerna resursineffektiva.</p><p>Genom att skapa en processtruktur som är möjlig att enkelt uppdatera skulle strukturen kunna återanvändas vid ny projektgrind men även under löpande projekt. Detta stämmer väl överens med grundtankarna bakom att använda ett PLM system. Ett flertal problem återstår att lösa för att detta skall kunna bli möjligt.</p><p>Slutsatserna av studien är att i processtrukturen bör artiklarna finnas under de stationer och operationer där de monteras i den verkliga fabriken. Det finns ingen universell lösning för hur strukturen skall se ut. Den enda vägledning som finns är att den skall spegla fabrikens processer. För att beredarna lätt skall kunna dra nytta av denna struktur bör även möjlighet finnas att söka upp artiklar genom ett namnfilter.</p><p>Beredare har idag ansvar för ett visst produktområde, t.ex. säkerhetsrelaterade artiklar. Alla artiklar från detta produktområde monteras i skilda avsnitt av fabriken. För att det skall vara möjligt att på ett effektivt sätt hitta var i produktstrukturen dessa artiklar monteras bör därför de olika operationerna namnges efter vilka olika produktområden artiklarna kommer ifrån. På detta sätt kan fördelning av olika system enkelt filtreras fram.</p><p>Ett förslag på temporärt arbetssätt har tagits fram och instruktionerna finns som bilaga B.</p> / <p>Saab is in need of an improved method for construction of virtual buildings that the planner can utilize. By creating a process structure in the existing PLM system, that can communicate and consume data from the product structure that already exists, a lot of work could be saved. Presently, the planner uses a visualization program that is connected only to the product structure. The current method with this visualization software is that the planner builds a process structure for each and every new project gate. This structure cannot easily be updated and therefore a new structure must be created before the new project gate. Thus, the virtual builds become resource inefficient.</p><p>By creating a process structure that easily can be updated, the structure could be reused in new gates and projects. This is consistent with the basic ideas behind using a PLM system. There are several obstacles to master before this will be possible. </p><p>The conclusions of this study are that in the process structure, the articles should be placed under the stations and operations where they are mounted in the actual factory. There is no universal solution as to how the structure should be, but it should reflect the plant processes. In order for the planner to easily take advantage of this structure, it should also be possible to look up articles using a name filter.</p><p>Planners are currently responsible for particular product areas, such as safety related articles. All parts of this product field are installed in separate sections in the plant. In order to efficiently find all the articles in the process structure, the operations should be named after the articles that are assembled under the specific operation.</p><p>A temporary working method has been proposed and the instructions can be found in Appendix B.</p> Teamcenter PLM PDM virtual manufacturing structure process Teamcenter PLM PDM virtuell byggnation struktur tillverkning process Manufacturing engineering Produktionsteknik Mechanical engineering Maskinteknik
3	Metodutveckling av virtuella byggnationer på Saab Automobile AB / Development of a method in virtual manufacturing at Saab Automobile AB Sikström, Moa, Wisén, Nathalie January 2010 (has links) Saab Automobile AB i Trollhättan är i behov av en förbättrad metod för virtuella byggnationer som beredningen kan använda sig av i biltillverkningen. Genom att skapa en processtruktur i befintligt PLM-system som kan kommunicera och hämta data från den produktstruktur som redan finns skulle mycket arbete kunna sparas. Idag använder beredarna sig av ett visualiseringsprogram som man kopplar produktstrukturen till. Enligt nuvarande metod bygger beredarna upp en struktur i detta visualiseringsprogram som fungerar som en processtruktur inför varje ny projektgrind. Denna struktur går inte att enkelt uppdatera och därför måste en ny skapas inför varje ny projektgrind. På detta sätt blir de virtuella byggnationerna resursineffektiva. Genom att skapa en processtruktur som är möjlig att enkelt uppdatera skulle strukturen kunna återanvändas vid ny projektgrind men även under löpande projekt. Detta stämmer väl överens med grundtankarna bakom att använda ett PLM system. Ett flertal problem återstår att lösa för att detta skall kunna bli möjligt. Slutsatserna av studien är att i processtrukturen bör artiklarna finnas under de stationer och operationer där de monteras i den verkliga fabriken. Det finns ingen universell lösning för hur strukturen skall se ut. Den enda vägledning som finns är att den skall spegla fabrikens processer. För att beredarna lätt skall kunna dra nytta av denna struktur bör även möjlighet finnas att söka upp artiklar genom ett namnfilter. Beredare har idag ansvar för ett visst produktområde, t.ex. säkerhetsrelaterade artiklar. Alla artiklar från detta produktområde monteras i skilda avsnitt av fabriken. För att det skall vara möjligt att på ett effektivt sätt hitta var i produktstrukturen dessa artiklar monteras bör därför de olika operationerna namnges efter vilka olika produktområden artiklarna kommer ifrån. På detta sätt kan fördelning av olika system enkelt filtreras fram. Ett förslag på temporärt arbetssätt har tagits fram och instruktionerna finns som bilaga B. / Saab is in need of an improved method for construction of virtual buildings that the planner can utilize. By creating a process structure in the existing PLM system, that can communicate and consume data from the product structure that already exists, a lot of work could be saved. Presently, the planner uses a visualization program that is connected only to the product structure. The current method with this visualization software is that the planner builds a process structure for each and every new project gate. This structure cannot easily be updated and therefore a new structure must be created before the new project gate. Thus, the virtual builds become resource inefficient. By creating a process structure that easily can be updated, the structure could be reused in new gates and projects. This is consistent with the basic ideas behind using a PLM system. There are several obstacles to master before this will be possible. The conclusions of this study are that in the process structure, the articles should be placed under the stations and operations where they are mounted in the actual factory. There is no universal solution as to how the structure should be, but it should reflect the plant processes. In order for the planner to easily take advantage of this structure, it should also be possible to look up articles using a name filter. Planners are currently responsible for particular product areas, such as safety related articles. All parts of this product field are installed in separate sections in the plant. In order to efficiently find all the articles in the process structure, the operations should be named after the articles that are assembled under the specific operation. A temporary working method has been proposed and the instructions can be found in Appendix B. Teamcenter PLM PDM virtual manufacturing structure process Teamcenter PLM PDM virtuell byggnation struktur tillverkning process Manufacturing engineering Produktionsteknik Mechanical engineering Maskinteknik
4	Teamcenter Simulation Process Management Runge, Torsten, Narendra, Kondragunda 18 July 2018 (has links) Manage your simulation processes, data, tools and workflows The pressure to shorten time-to-market while improving product performance and quality is driving the increased use of simulation throughout the product lifecycle. However, without some form of simulation data management, simulation itself can become a process bottleneck. The Teamcenter simulation process management solution has been specifically designed to help you get control of your simulation data and processes in the context of an overall product lifecycle management (PLM) system. With Teamcenter, you can avoid common problems such as analyses being performed on obsolete data, poor visibility to simulation results, and results arriving too late to influence design direction. You can efficiently manage and share complex product simulations so they are available to all product decision-makers across your business. info:eu-repo/classification/ddc/629 ddc:629 CAE; Simulation; Prozessmanagement
5	Pattern Based System Engineering (PBSE)- Product Lifecycle Management (PLM) Integration and Validation Gupta, Rajat 17 November 2017 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Mass customization, small lot sizes, reduced cost, high variability of product types and changing product portfolio are characteristics of modern manufacturing systems during life cycle. A direct consequence of these characteristics is a more complex system and supply chain. Product lifecycle management (PLM) and model based system engineering (MBSE) are tools which have been proposed and implemented to address different aspects of this complexity and resulting challenges. Our previous work has successfully implemented a MBSE model into a PLM platform. More specifically, Pattern based system engineering (S* pattern) models of systems are integrated with TEAMCENTER to link and interface system level with component level, and streamline the lifecycle across disciplines. The benefit of the implementation is two folded. On one side it helps system engineers using system engineering models enable a shift from learning how to model to implementing the model, which leads to more effective systems definition, design, integration and testing. On the other side the PLM platform provides a reliable database to store legacy data for future use also track changes during the entire process, including one of the most important tools that a systems engineer needs which is an automatic report generation tool. In the current work, we have configured a PLM platform (TEAMCENTER) to support automatic generation of reports and requirements tables using a generic Oil Filter system lifecycle. There are three tables that have been configured for automatic generation which are Feature definitions table, Detail Requirements table and Stakeholder Feature Attributes table. These tables where specifically chosen as they describe all the requirements of the system and cover all physical behaviours the oil filter system shall exhibit during its physical interactions with external systems. The requirement tables represent core content for a typical systems engineering report. With the help of the automatic report generation tool, it is possible to prepare the entire report within one single system, the PLM system, to ensure a single reliable data source for an organization. Automatic generation of these contents can save the systems engineers time, avoid duplicated work and human errors in report preparation, train future generation of workforce in the lifecycle all the while encouraging standardized documents in an organization. MBSE (Model Based System Engineering) PBSE (Pattern Based System Engineering) System Engineering PLM (Product Lifecycle Management) Teamcenter Integration and Validation
6	Možnosti CAM softwaru NX při programování CNC obráběcích strojů / Possibilities of CAM software NX in programming CNC machine tools Forbelský, Jiří January 2014 (has links) The thesis details the NX CAM application and its capabilities in the production of specific shapes on selected components. It includes a selection of machinery, respective tools, together with shanks and clamping cones, as well as selection and verification of the cutting conditions. The process is accompanied by a graphic simulation and complemented by an economic evaluation.
7	Разработка системы информационной поддержки проектирования робототехнических устройств и создание структуры проекта робота-манипулятора в среде PDM Teamcenter с возможностью дистанционного доступа к проекту : магистерская диссертация / Experimental and computer aided investigation of cutting process of brittle materials Ваганов, К. А., Vaganov, K. A. January 2016 (has links) This master thesis work was aimed to enhance the designing of robots using cloud technologies. Analytical review of software to design robots, including PDM systems, was made. The specific features of such systems are presented and necessary modules are selected for designing the robot manipulator using CAD and PDM tools. 3D model of industrial robot was created using Semens NX CAD software. All the standards and regulatory documents related to the robotics design were considered. The design sequence of the robot manipulator with reference to standards (GOST 2.103-68 and GOST 19.102-77) is described. The project structure was created with use of Siemens Teamcenter PDM software and cloud technologies. / Данная магистерская диссертация направлена на внедрение технологий проектирования робототехнических систем в облаке. Спроектирован робот манипуляционного типа, создана электронная структура проекта в облаке с использованием программы PDM, проект размещен и организован для дальнейшего развития в облаке. MASTER'S THESIS SIEMENS TEAMCENTER HARD BRITTLE MATERIALS GLASS SCRIBING COMPUTER MODELING FINITE ELEMENT METHOD CONFOCAL MICROSCOPY DIAMOND CUTTING ANSYS APDL ПРОЕКТИРОВАНИЕ ОБЛАКО РОБОТ МАНИПУЛЯТОР
8	A plm implementation for aerospace systems engineering-conceptual rotorcraft design Hart, Peter Bartholomew 08 April 2009 (has links) The thesis will discuss the Systems Engineering phase of an original Conceptual Design Engineering Methodology for Aerospace Engineering-Vehicle Synthesis. This iterative phase is shown to benefit from digitization of Integrated Product&Process Design (IPPD) activities, through the application of Product Lifecycle Management (PLM) technologies. Requirements analysis through the use of Quality Function Deployment (QFD) and 7 MaP tools is explored as an illustration. A "Requirements Data Manager" (RDM) is used to show the ability to reduce the time and cost to design for both new and legacy/derivative designs. Here the COTS tool Teamcenter Systems Engineering (TCSE) is used as the RDM. The utility of the new methodology is explored through consideration of a legacy RFP based vehicle design proposal and associated aerospace engineering. The 2001 American Helicopter Society (AHS) 18th Student Design Competition RFP is considered as a starting point for the Systems Engineering phase. A Conceptual Design Engineering activity was conducted in 2000/2001 by Graduate students (including the author) in Rotorcraft Engineering at the Daniel Guggenheim School of Aerospace Engineering at the Georgia Institute of Technology, Atlanta GA. This resulted in the "Kingfisher" vehicle design, an advanced search and rescue rotorcraft capable of performing the "Perfect Storm" mission, from the movie of the same name. The associated requirements, architectures, and work breakdown structure data sets for the Kingfisher are used to relate the capabilities of the proposed Integrated Digital Environment (IDE). The IDE is discussed as a repository for legacy knowledge capture, management, and design template creation. A primary thesis theme is to promote the automation of the up-front conceptual definition of complex systems, specifically aerospace vehicles, while anticipating downstream preliminary and full spectrum lifecycle design activities. The thesis forms a basis for additional discussions of PLM tool integration across the engineering, manufacturing, MRO and EOL lifecycle phases to support business management processes. Teamcenter systems engineering Teamcenter community Teamcenter unified Teamcenter engineering Teamcenter manufacturing CATIA V5 Rotorcraft design Boeing AHS Joint heavy lift VPLM MBOM EBOM Product change control Product definition Configuration management Product structure architecture Design engineering Aerospace engineering System engineering PLM CIE IDE SE Affordability Cost savings Executive helicopter Joint chiefs of staff Marine CAE CAD CAM CAA MDO RSM DOE Consulting Engineering management Perfect storm Engineering software Requirements data management CATIA V4 NX Engineering communications RFP Digitization Air Force Navy Army BAMS FIPER ACSYNT Sikorsky Bell Georgia Tech Engineering methodology Requirements engineering System engineering Search Rescue IDE Integrated digital environment Kingfisher Search and rescue Helicopter Helicopter engineering QFD Legacy design IPPD Quality engineering Defense systems acquisition Coast Guard Decision support systems Rotors (Helicopters) Design Concurrent engineering
9	Studie standardizace určené komodity pro činnosti nákupu / The Study of Standardization for the Business of Buying Commodities Vlašic, Petr January 2016 (has links) Master’s thesis deal with commodities of metallurgical and connecting material in engineering firm. For these commodities is concocted an analysis of current statement, based on it will be designed its material standard. Purpose of this dissertation should be reaching of potential savings of money, time and increasing of productivity.
10	Spojitá/dávková výroba v prostředí Industry 4.0 / Continuous/Batch production in Industry 4.0 environment Ručka, Petr January 2017 (has links) This master’s thesis named Continuous/batch production in environment Industry 4.0 deals with software and principles that are designed for discrete manufacturing and their application to the continuous and batch production. First, the functions and properties of individual programs for discrete manufacturing were descripted, then this acquired knowledge was related to continuous and batch production. On the basis of the gained knowledge, a program for the processing of liquid materials with using two tanks was created. This program is aimed at customizing of the final product.

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