Creating Integrated System Between Lifecycle Quality Management and Finite Element Analysis to Improve Typical Turbine Blade Design as a Case Study
Keywords:
Finite Element Analysis, Simulation, Digital Manufacturing, Life-cycle Quality, Management
Abstract
This article proposes a process to integrate efficiently the Finite Element Analysis in the Quality Life-Cycle Management in order to use the simulation engineering in analyzing and improving the design of one industrial part. In addition, a new flowchart has been created to enter the data resulted from Numerical Analysis using ANSYS code in QLM process for a typical turbine blade (as a case study) to show the practical steps of design validation in digital method. This paper prepares the base to simulate a complex industrial assembly in integrated FEA-QLM process as a future work.
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References
[1]. Quiza R., Hybrid Modeling and Optimization of Manufacturing, Springer press, 10.1007/978-3-642-28085-6_2, 2012.
[2]. ***, Simulation Lifecycle Management, Research Park Drive center, CIMdata.Inc, USA, 2011.
[3]. ***, https://www.ptc.com/-/media/Files/PDFs/PLM/QualityLifecycleManagement.ashx?la=en&hash=6734263DA6B38B1EF90E48D30565D2E2CB2817C4.
[4]. Alejandro Romero, Darli Rodrigues Vieira, Using the Product Lifecycle Management Systems to Improve Maintenance, Repair and Overhaul Practices: The Case of Aeronautical Industry, Canada, p. 159-168, 2014.
[5]. Haidar Amer, Applications of Numerical Analysis in Simulation Engineering and Manufacturing Technologies, PISSN-1224-029X, TEHNOMUS conference, Romania, 2017.
[6]. James T. A., Introduction to Design Optimization, University of Michigan, 2005.
[7]. Chryssolouris G., Mavrikios D., Papakostas N., Digital manufacturing: history, perspectives, and outlook, DOI: 10.1243/09544054JEM1241, Greece, 2008.
[8]. Stefan Bodi, Sorin Popescu, Virtual Quality Management Elements in Optimized New Product Development Using Genetic Algorithms, TIIM, Italy, 2015.
[9]. Meherwan P. Boyce, Gas Turbine Engineering handbook, B.H press, ISBN-13: 978-0123838421, 2016.
[10]. Vaishaly P., Ramarao B. S. V., Finite Element Stress Analysis of a Typical Steam Turbine Blade, ISSN 2319-7064, India, 2013.
[11]. Durga K. S., Talap S., Design and Analysis of Steam Turbine Blade using FEA, ISSN 2319-8885, India, 2015.
[12]. ***, http://www.learnengineering.org/2013/02/working-ofsteam-turbine.html.
[13]. Anthony J. Lockwood, CFD for Mechanical Design Engineers: A Paradigm Shift for Better Design, Desktop Engineering, 2013.
[14]. Misrak Girma, Edessa Dribssa, Flow Simulation and Performance Prediction of Cross Flow Turbine Using CFD Tool, International Journal of Engineering Research and General Science, ISSN 2091-2730, 2014.
[15]. Wahyu Kuntjoro, Aidah Jumahat, Parametric Study of Low Velocity Impact Using Finite Element Analysis, Applied Mechanics Jpurnal, ISSN 1662-7482, 2013.
[2]. ***, Simulation Lifecycle Management, Research Park Drive center, CIMdata.Inc, USA, 2011.
[3]. ***, https://www.ptc.com/-/media/Files/PDFs/PLM/QualityLifecycleManagement.ashx?la=en&hash=6734263DA6B38B1EF90E48D30565D2E2CB2817C4.
[4]. Alejandro Romero, Darli Rodrigues Vieira, Using the Product Lifecycle Management Systems to Improve Maintenance, Repair and Overhaul Practices: The Case of Aeronautical Industry, Canada, p. 159-168, 2014.
[5]. Haidar Amer, Applications of Numerical Analysis in Simulation Engineering and Manufacturing Technologies, PISSN-1224-029X, TEHNOMUS conference, Romania, 2017.
[6]. James T. A., Introduction to Design Optimization, University of Michigan, 2005.
[7]. Chryssolouris G., Mavrikios D., Papakostas N., Digital manufacturing: history, perspectives, and outlook, DOI: 10.1243/09544054JEM1241, Greece, 2008.
[8]. Stefan Bodi, Sorin Popescu, Virtual Quality Management Elements in Optimized New Product Development Using Genetic Algorithms, TIIM, Italy, 2015.
[9]. Meherwan P. Boyce, Gas Turbine Engineering handbook, B.H press, ISBN-13: 978-0123838421, 2016.
[10]. Vaishaly P., Ramarao B. S. V., Finite Element Stress Analysis of a Typical Steam Turbine Blade, ISSN 2319-7064, India, 2013.
[11]. Durga K. S., Talap S., Design and Analysis of Steam Turbine Blade using FEA, ISSN 2319-8885, India, 2015.
[12]. ***, http://www.learnengineering.org/2013/02/working-ofsteam-turbine.html.
[13]. Anthony J. Lockwood, CFD for Mechanical Design Engineers: A Paradigm Shift for Better Design, Desktop Engineering, 2013.
[14]. Misrak Girma, Edessa Dribssa, Flow Simulation and Performance Prediction of Cross Flow Turbine Using CFD Tool, International Journal of Engineering Research and General Science, ISSN 2091-2730, 2014.
[15]. Wahyu Kuntjoro, Aidah Jumahat, Parametric Study of Low Velocity Impact Using Finite Element Analysis, Applied Mechanics Jpurnal, ISSN 1662-7482, 2013.
Published
2018-03-15
How to Cite
1.
AMER H. Creating Integrated System Between Lifecycle Quality Management and Finite Element Analysis to Improve Typical Turbine Blade Design as a Case Study. The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science [Internet]. 15Mar.2018 [cited 23Nov.2024];41(1):22-9. Available from: https://gup.ugal.ro/ugaljournals/index.php/mms/article/view/1108
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Articles