The Experts below are selected from a list of 131409 Experts worldwide ranked by ideXlab platform
E Bayraktar - One of the best experts on this subject based on the ideXlab platform.
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Manufacturing of Aluminum Matrix Composites Reinforced with Iron Oxide (Fe_3O_4) Nanoparticles: Microstructural and Mechanical Properties
Metallurgical and Materials Transactions B, 2014Co-Authors: E Bayraktar, F Ayari, Ming Jen Tan, Ayse Tosun-bayraktar, D KatundiAbstract:The purpose of this paper is to demonstrate the low-cost manufacturing of aluminum matrix composites reinforced with nano iron oxide as light and efficient materials for engineering applications. It is very desirable to use reinforced aluminum matrix composites in structural applications (automotive, aeronautical, etc .) because of their outstanding stiffness-to-weight and strength-to-weight ratios. In Modern Industry, it is increasingly important to develop new composites as alternative materials to fabricate multifunctional pieces. Detailed information is presented on the manufacturing process of this composite, and a preliminary study was performed on the cryogenic-cycling behavior to evaluate the interface between the matrix and the reinforcement. Microindentation tests were carried out to evaluate the micromechanical properties of these materials; a simple and practical finite element model is proposed to predict certain parameters related to the composition of the composite.
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Manufacturing of Aluminum Matrix Composites Reinforced with Iron Oxide (Fe3O4) Nanoparticles: Microstructural and Mechanical Properties
Metallurgical and Materials Transactions B, 2013Co-Authors: E Bayraktar, F Ayari, Ming Jen Tan, Ayse Tosun-bayraktar, D KatundiAbstract:The purpose of this paper is to demonstrate the low-cost manufacturing of aluminum matrix composites reinforced with nano iron oxide as light and efficient materials for engineering applications. It is very desirable to use reinforced aluminum matrix composites in structural applications (automotive, aeronautical, etc.) because of their outstanding stiffness-to-weight and strength-to-weight ratios. In Modern Industry, it is increasingly important to develop new composites as alternative materials to fabricate multifunctional pieces. Detailed information is presented on the manufacturing process of this composite, and a preliminary study was performed on the cryogenic-cycling behavior to evaluate the interface between the matrix and the reinforcement. Microindentation tests were carried out to evaluate the micromechanical properties of these materials; a simple and practical finite element model is proposed to predict certain parameters related to the composition of the composite.
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damage of aluminium matrix composite reinforced with iron oxide fe3o4 experimental and numerical study
INTERNATIONAL CONFERENCE ON ADVANCES IN MATERIALS AND PROCESSING TECHNOLOGIES (AMPT2010), 2011Co-Authors: F Ayari, D Katundi, E BayraktarAbstract:The powder metallurgy components are being widely used for sophisticated industrial applications at a very high rate production and low cost. In Modern Industry, more and more it is imposed to develop new composites, such as high resistant, low density, alternative materials in order to realise multifunctional pieces. For this reason, it is very striking to use reinforced (Fe3O4‐iron oxide) aluminium matrix composites in structural applications (automotive, aeronautical, etc.) due to their outstanding stiffness‐to‐weight and strength‐to‐weight ratios. These materials show good thermal conductivity and wear resistance and also low thermal expansion, all of which makes them very high multifunctional light weight materials. Additionally, it is very attractive way to add Fe3O4‐iron oxide reinforcing for improving the magnetic permeability of this composites and by this way, it can be obtained a good synchronization between thermal and electrical conductivities and magnetic permeability.
Okyay Kaynak - One of the best experts on this subject based on the ideXlab platform.
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big data for Modern Industry challenges and trends point of view
Proceedings of the IEEE, 2015Co-Authors: Shen Yin, Okyay KaynakAbstract:We are living in an era of data deluge and as a result, the term ‘‘big data’’ is appearing in many contexts, from meteorology, genomics, complex physics simulations, biological and environmental research, finance and business to healthcare. Explores ways in business and Industry is working to manage data and reports on applications that support these initiatives.
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big data for Modern Industry challenges and trends
2015Co-Authors: Shen Yin, Okyay KaynakAbstract:earelivinginaneraofdatadelugeandasaresult,theterm‘‘big data’’ is appearing in many contexts, from meteorol-ogy, genomics, complex physics simulations, biologicaland environmental research, finance and business tohealthcare. One interesting example is that a press release of SAP AG, dated 11June 2014 reported, ‘‘SAP and the German Football Association turn big dataintosmartdecisionstoimproveplayerperformanceattheWorldCupinBrazil.’’An International Data Corporation (IDC) report [1] predicts that ‘‘from 2005to 2020, the digital universe will grow by a factor of 300, from 130 Exabyte to40 000 Exabyte’’ and that ‘‘from now until 2020 will about double every twoyears.’’ As the name implies, big data literally means large collections of datasets containing abundant information. However, it has some special charac-teristics that distinguish it from ‘‘very large data’’ or ‘‘massive data’’ that aresimply enormous collections of simple-format records, typically equivalent toenormous spreadsheets. Big data, being generally unstructured and heteroge-neous, is extremely complex to dealwith via traditional approaches, andrequires real-time or almost real-timeanalysis. A short definition can there-fore be that ‘‘big data’’ refers to datasets whose size is beyond the abilityof typical database software tools tocapture, store, manage, and analyze.For a thorough discussion on variousaspects of big data and the challengesit presents, together with some po-tential research directions, the readeris referred to [2].
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data based techniques focused on Modern Industry an overview
IEEE Transactions on Industrial Electronics, 2015Co-Authors: Shen Yin, Xianwei Li, Huijun Gao, Okyay KaynakAbstract:This paper provides an overview of the recent developments in data-based techniques focused on Modern industrial applications. As one of the hottest research topics for complicated processes, the data-based techniques have been rapidly developed over the past two decades and widely used in numerous industrial sectors nowadays. The core of data-based techniques is to take full advantage of the huge amounts of available process data, aiming to acquire the useful information within. Compared with the well-developed model-based approaches, data-based techniques provide efficient alternative solutions for different industrial issues under various operating conditions. The main objective of this paper is to review and summarize the recent achievements in data-based techniques, especially for complicated industrial applications, thus providing a referee for further study on the related topics both from academic and practical points of view. This paper begins with a brief evolutionary overview of data-based techniques in the last two decades. Then, the methodologies only based on process measurements and the model-data integrated techniques will be further introduced. The recent developments for Modern industrial applications are, respectively, presented mainly from perspectives of monitoring and control. The new trends of data-based technique as well as potential application fields are finally discussed.
D Katundi - One of the best experts on this subject based on the ideXlab platform.
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Manufacturing of Aluminum Matrix Composites Reinforced with Iron Oxide (Fe_3O_4) Nanoparticles: Microstructural and Mechanical Properties
Metallurgical and Materials Transactions B, 2014Co-Authors: E Bayraktar, F Ayari, Ming Jen Tan, Ayse Tosun-bayraktar, D KatundiAbstract:The purpose of this paper is to demonstrate the low-cost manufacturing of aluminum matrix composites reinforced with nano iron oxide as light and efficient materials for engineering applications. It is very desirable to use reinforced aluminum matrix composites in structural applications (automotive, aeronautical, etc .) because of their outstanding stiffness-to-weight and strength-to-weight ratios. In Modern Industry, it is increasingly important to develop new composites as alternative materials to fabricate multifunctional pieces. Detailed information is presented on the manufacturing process of this composite, and a preliminary study was performed on the cryogenic-cycling behavior to evaluate the interface between the matrix and the reinforcement. Microindentation tests were carried out to evaluate the micromechanical properties of these materials; a simple and practical finite element model is proposed to predict certain parameters related to the composition of the composite.
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Manufacturing of Aluminum Matrix Composites Reinforced with Iron Oxide (Fe3O4) Nanoparticles: Microstructural and Mechanical Properties
Metallurgical and Materials Transactions B, 2013Co-Authors: E Bayraktar, F Ayari, Ming Jen Tan, Ayse Tosun-bayraktar, D KatundiAbstract:The purpose of this paper is to demonstrate the low-cost manufacturing of aluminum matrix composites reinforced with nano iron oxide as light and efficient materials for engineering applications. It is very desirable to use reinforced aluminum matrix composites in structural applications (automotive, aeronautical, etc.) because of their outstanding stiffness-to-weight and strength-to-weight ratios. In Modern Industry, it is increasingly important to develop new composites as alternative materials to fabricate multifunctional pieces. Detailed information is presented on the manufacturing process of this composite, and a preliminary study was performed on the cryogenic-cycling behavior to evaluate the interface between the matrix and the reinforcement. Microindentation tests were carried out to evaluate the micromechanical properties of these materials; a simple and practical finite element model is proposed to predict certain parameters related to the composition of the composite.
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damage of aluminium matrix composite reinforced with iron oxide fe3o4 experimental and numerical study
INTERNATIONAL CONFERENCE ON ADVANCES IN MATERIALS AND PROCESSING TECHNOLOGIES (AMPT2010), 2011Co-Authors: F Ayari, D Katundi, E BayraktarAbstract:The powder metallurgy components are being widely used for sophisticated industrial applications at a very high rate production and low cost. In Modern Industry, more and more it is imposed to develop new composites, such as high resistant, low density, alternative materials in order to realise multifunctional pieces. For this reason, it is very striking to use reinforced (Fe3O4‐iron oxide) aluminium matrix composites in structural applications (automotive, aeronautical, etc.) due to their outstanding stiffness‐to‐weight and strength‐to‐weight ratios. These materials show good thermal conductivity and wear resistance and also low thermal expansion, all of which makes them very high multifunctional light weight materials. Additionally, it is very attractive way to add Fe3O4‐iron oxide reinforcing for improving the magnetic permeability of this composites and by this way, it can be obtained a good synchronization between thermal and electrical conductivities and magnetic permeability.
F Ayari - One of the best experts on this subject based on the ideXlab platform.
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Manufacturing of Aluminum Matrix Composites Reinforced with Iron Oxide (Fe_3O_4) Nanoparticles: Microstructural and Mechanical Properties
Metallurgical and Materials Transactions B, 2014Co-Authors: E Bayraktar, F Ayari, Ming Jen Tan, Ayse Tosun-bayraktar, D KatundiAbstract:The purpose of this paper is to demonstrate the low-cost manufacturing of aluminum matrix composites reinforced with nano iron oxide as light and efficient materials for engineering applications. It is very desirable to use reinforced aluminum matrix composites in structural applications (automotive, aeronautical, etc .) because of their outstanding stiffness-to-weight and strength-to-weight ratios. In Modern Industry, it is increasingly important to develop new composites as alternative materials to fabricate multifunctional pieces. Detailed information is presented on the manufacturing process of this composite, and a preliminary study was performed on the cryogenic-cycling behavior to evaluate the interface between the matrix and the reinforcement. Microindentation tests were carried out to evaluate the micromechanical properties of these materials; a simple and practical finite element model is proposed to predict certain parameters related to the composition of the composite.
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Manufacturing of Aluminum Matrix Composites Reinforced with Iron Oxide (Fe3O4) Nanoparticles: Microstructural and Mechanical Properties
Metallurgical and Materials Transactions B, 2013Co-Authors: E Bayraktar, F Ayari, Ming Jen Tan, Ayse Tosun-bayraktar, D KatundiAbstract:The purpose of this paper is to demonstrate the low-cost manufacturing of aluminum matrix composites reinforced with nano iron oxide as light and efficient materials for engineering applications. It is very desirable to use reinforced aluminum matrix composites in structural applications (automotive, aeronautical, etc.) because of their outstanding stiffness-to-weight and strength-to-weight ratios. In Modern Industry, it is increasingly important to develop new composites as alternative materials to fabricate multifunctional pieces. Detailed information is presented on the manufacturing process of this composite, and a preliminary study was performed on the cryogenic-cycling behavior to evaluate the interface between the matrix and the reinforcement. Microindentation tests were carried out to evaluate the micromechanical properties of these materials; a simple and practical finite element model is proposed to predict certain parameters related to the composition of the composite.
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damage of aluminium matrix composite reinforced with iron oxide fe3o4 experimental and numerical study
INTERNATIONAL CONFERENCE ON ADVANCES IN MATERIALS AND PROCESSING TECHNOLOGIES (AMPT2010), 2011Co-Authors: F Ayari, D Katundi, E BayraktarAbstract:The powder metallurgy components are being widely used for sophisticated industrial applications at a very high rate production and low cost. In Modern Industry, more and more it is imposed to develop new composites, such as high resistant, low density, alternative materials in order to realise multifunctional pieces. For this reason, it is very striking to use reinforced (Fe3O4‐iron oxide) aluminium matrix composites in structural applications (automotive, aeronautical, etc.) due to their outstanding stiffness‐to‐weight and strength‐to‐weight ratios. These materials show good thermal conductivity and wear resistance and also low thermal expansion, all of which makes them very high multifunctional light weight materials. Additionally, it is very attractive way to add Fe3O4‐iron oxide reinforcing for improving the magnetic permeability of this composites and by this way, it can be obtained a good synchronization between thermal and electrical conductivities and magnetic permeability.
Shen Yin - One of the best experts on this subject based on the ideXlab platform.
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big data for Modern Industry challenges and trends point of view
Proceedings of the IEEE, 2015Co-Authors: Shen Yin, Okyay KaynakAbstract:We are living in an era of data deluge and as a result, the term ‘‘big data’’ is appearing in many contexts, from meteorology, genomics, complex physics simulations, biological and environmental research, finance and business to healthcare. Explores ways in business and Industry is working to manage data and reports on applications that support these initiatives.
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big data for Modern Industry challenges and trends
2015Co-Authors: Shen Yin, Okyay KaynakAbstract:earelivinginaneraofdatadelugeandasaresult,theterm‘‘big data’’ is appearing in many contexts, from meteorol-ogy, genomics, complex physics simulations, biologicaland environmental research, finance and business tohealthcare. One interesting example is that a press release of SAP AG, dated 11June 2014 reported, ‘‘SAP and the German Football Association turn big dataintosmartdecisionstoimproveplayerperformanceattheWorldCupinBrazil.’’An International Data Corporation (IDC) report [1] predicts that ‘‘from 2005to 2020, the digital universe will grow by a factor of 300, from 130 Exabyte to40 000 Exabyte’’ and that ‘‘from now until 2020 will about double every twoyears.’’ As the name implies, big data literally means large collections of datasets containing abundant information. However, it has some special charac-teristics that distinguish it from ‘‘very large data’’ or ‘‘massive data’’ that aresimply enormous collections of simple-format records, typically equivalent toenormous spreadsheets. Big data, being generally unstructured and heteroge-neous, is extremely complex to dealwith via traditional approaches, andrequires real-time or almost real-timeanalysis. A short definition can there-fore be that ‘‘big data’’ refers to datasets whose size is beyond the abilityof typical database software tools tocapture, store, manage, and analyze.For a thorough discussion on variousaspects of big data and the challengesit presents, together with some po-tential research directions, the readeris referred to [2].
-
data based techniques focused on Modern Industry an overview
IEEE Transactions on Industrial Electronics, 2015Co-Authors: Shen Yin, Xianwei Li, Huijun Gao, Okyay KaynakAbstract:This paper provides an overview of the recent developments in data-based techniques focused on Modern industrial applications. As one of the hottest research topics for complicated processes, the data-based techniques have been rapidly developed over the past two decades and widely used in numerous industrial sectors nowadays. The core of data-based techniques is to take full advantage of the huge amounts of available process data, aiming to acquire the useful information within. Compared with the well-developed model-based approaches, data-based techniques provide efficient alternative solutions for different industrial issues under various operating conditions. The main objective of this paper is to review and summarize the recent achievements in data-based techniques, especially for complicated industrial applications, thus providing a referee for further study on the related topics both from academic and practical points of view. This paper begins with a brief evolutionary overview of data-based techniques in the last two decades. Then, the methodologies only based on process measurements and the model-data integrated techniques will be further introduced. The recent developments for Modern industrial applications are, respectively, presented mainly from perspectives of monitoring and control. The new trends of data-based technique as well as potential application fields are finally discussed.
