Proceedings Of Sakura Symposium On Mechanical Science And Engineering 2017
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Author : Mohd Fadzli Bin Abdollah,Takayuki Tokoroyama Publisher : Centre for Advanced Research on Energy Page : 41 pages File Size : 52,9 Mb Release : 2017-11-10 Category : Electronic ISBN : 9789672145073
Proceedings of SAKURA Symposium on Mechanical Science and Engineering 2017 by Mohd Fadzli Bin Abdollah,Takayuki Tokoroyama Pdf
This e-book is a compilation of papers presented at the SAKURA Symposium on Mechanical Science and Engineering 2017 (SAKURA2017) - Nagoya, Japan on 12 September 2017.
Author : Mohd Fadzli Bin Abdollah Publisher : Centre for Advanced Research on Energy Page : 323 pages File Size : 45,5 Mb Release : 2018-05-16 Category : Electronic ISBN : 9789672145202
Proceedings of Mechanical Engineering Research Day 2018 by Mohd Fadzli Bin Abdollah Pdf
This e-book is a compilation of papers presented at the 5th Mechanical Engineering Research Day (MERD'18) - Kampus Teknologi UTeM, Melaka, Malaysia on 03 May 2018.
Proceedings of Asia International Conference on Tribology 2018 by Mohd Fadzli Bin Abdollah Pdf
This ebook is a compilation of 234 papers presented at the 6th Asia International Conference on Tribology (ASIATRIB2018): Kuching, Sarawak - Malaysia from 17 to 20 September 2018.
Mohd Fadzli Bin Abdollah,Hilmi Amiruddin,Amrik Singh Phuman Singh
Author : Mohd Fadzli Bin Abdollah,Hilmi Amiruddin,Amrik Singh Phuman Singh Publisher : Centre for Advanced Research on Energy Page : 414 pages File Size : 45,5 Mb Release : 2020-12-01 Category : Technology & Engineering ISBN : 9789672454366
Proceedings of Mechanical Engineering Research Day 2020 by Mohd Fadzli Bin Abdollah,Hilmi Amiruddin,Amrik Singh Phuman Singh Pdf
This e-book is a compilation of 170 articles presented at the 7th Mechanical Engineering Research Day (MERD'20) - Kampus Teknologi UTeM (virtual), Melaka, Malaysia on 16 December 2020.
Recent Advances in Thermofluids and Manufacturing Engineering by Shripad Revankar,Kamalakanta Muduli,Debjyoti Sahu Pdf
This book presents the select proceedings of the International Conference on Thermofluids and Manufacturing Science (ICTMS 2022). Some of the topics covered include Heat transfer, fluid dynamics, multiphase flow, flow diagnostics using artificial neural network, aerodynamics, high-speed flows, sustainable energy technology, propulsion and emissions, Eco-friendly manufacturing, Coating Techniques and Supply chain management etc. Given the scope, the book will be highly useful for researchers and professionals interested in mechanical, production or aerospace engineering
Author : Mohd Fadzli Bin Abdollah Publisher : Centre for Advanced Research on Energy Page : 395 pages File Size : 46,8 Mb Release : 2019-08-05 Category : Technology & Engineering ISBN : 9789672145653
Proceedings of Mechanical Engineering Research Day 2019 by Mohd Fadzli Bin Abdollah Pdf
This e-book is a compilation of papers presented at the 6th Mechanical Engineering Research Day (MERD'19) - Kampus Teknologi UTeM, Melaka, Malaysia on 31 July 2019.
Proceedings of SAKURA Symposium on Surface Technology and Engineering Materials 2022 by Mohd Fadzli Bin Abdollah Pdf
This e-book is a compilation of papers presented at the SAKURA Symposium on Surface Technology and Engineering Materials (SAKURA2022) - Nagoya, Japan on 17 October 2022.
Print Proceedings of the ASME 2017 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference (DETC2017): Volume 8 by ASME. Pdf
Printed collection of 69 full-length, peer-reviewed technical papers. Topics include: 29th Conference on Mechanical Vibration and Noise (VIB)
International Conference on Material Science and Engineering II by Dongyan Shi Pdf
The proceedings by results of the 2017 International Conference on Material Science and Engineering (June 16-18, 2017 in Jeju Island, South Korea) introduce to the readers with newest research results in the field of material science and engineering design. We hope that this collection will be useful for many scientists, engineers, postgraduates and other professionals in the area of material science and engineering technology.
Print Proceedings of the 2017 International Manufacturing Science and Engineering Conference (MSEC2017): Volume 2: Additive Manufacturing; Materials by ASME. Pdf
Mohd Fadzli Bin Abdollah,Mohd Azli Bin Salim,Tee Boon Tuan
Author : Mohd Fadzli Bin Abdollah,Mohd Azli Bin Salim,Tee Boon Tuan Publisher : Centre for Advanced Research on Energy Page : 229 pages File Size : 45,5 Mb Release : 2016-03-31 Category : Electronic ISBN : 9789670257709
Ever since 1911, the Solvay Conferences have shaped modern physics. The format is quite different from other conferences as the emphasis is placed on discussion. The 27th edition held in October 2017 in Brussels and chaired by Boris Shraiman continued this tradition and addressed some of the most pressing open questions in the fields of biophysics, gathering many of the leading figures working on a wide variety of profound problems.The proceedings contain the 'rapporteur talks' giving a broad overview with unique insights by distinguished renowned scientists. These lectures cover the five sessions: 'Intra-cellular Structure and Dynamics', 'Cell Behavior and Control', 'Inter-cellular Interactions and Patterns', 'Morphogenesis', 'Evolutionary dynamics'.In the Solvay tradition, the proceedings also include the prepared comments to the rapporteur talks. The discussions among the participants -- expert, yet lively and sometimes contentious -- have been edited to retain their flavor and are reproduced in full. The reader is taken on a breathtaking ride through a fascinating field which is expanding rapidly and which was for the first time the subject of a Solvay Conference on Physics.
Cellular Design for Laser Freeform Fabrication by Olaf Rehme Pdf
Cellular materials are spread all across the world. They can be found in nature, e.g. in bone and wood, as well as in engineering applications such as honeycomb sheets and aluminum foams to name but a few. Cellular materials have some unique properties which allow new and innovative applications beyond the scope of solid engineering materials. Especially their low density and therefore their outstanding stiffness-to-weight-ratio is of greatest importance in most applications. Functions of cellular materials could be lightweight structures of high stiffness, damping and absorption of mechanical energy, vibration control, acoustic absorption, heat exchange, filtering and numerous other tasks. Generally, a combination of these tasks in one part exhibits an optimized and therefore innovative overall performance. One recent development in production technologies is the field of Laser Freeform Fabrication (LFF) processes where parts are manufactured by application of thin layers of powder or sometimes liquid material. A laser beam melts and solidifies the material along contour lines and hatch areas according to slices of a corresponding 3D-CAD model. Among these processes the Selective Laser Melting (SLM) technology was advanced based upon the work in this thesis to allow the manufacture of periodic, open-cell lattice structures from engineering materials such as stainless steel, titanium, etc. In contrast to other cellular materials these lattice structures can be of well-defined, nearly arbitrary shape. Due to the layerwise fabrication the SLM process is also capable of creating lattice cores surrounded by solid shells allowing new degrees of geometric freedom in engineering design that was never experienced before in conventional machining. This allows the development of interesting new applications such as medical implants where the main issues are the improvement of osseointegration and realization of physioelastic material properties for an optimized bond between the implant and surrounding tissue. Lattice structures obtained from the SLM process can meet these requirements. This thesis contributes to the understanding of the mechanical properties of the new material class of SLM lattice structures. Their future incorporation in engineering designs requires a profound knowledge of failure mechanisms and operational limits. Therefore, a comprehensive summary is given on the state-of-the-art of cellular materials followed by a dedicated analysis on Laser Freeform Fabrication and an in-depth validation of the Selective Laser Melting capabilities. Readers with advanced knowledge on cellular materials or Laser Freeform Fabrication may skip sections 2 or 3, respectively. Next, all process constraints and boundary conditions for the manufacture of SLM lattice structures are elaborated. Then a bilateral approach was chosen to derive scaling laws and optimize the SLM lattice structures for given tasks. Firstly, a theoretical analysis comprises the examination of structural hypotheses for isotropic cellular materials before a generalized theory is developed for anisotropic SLM lattice structures. Different cubic, polyhedral and rhombic cell types are evaluated towards their producibility. Some of these cell types are preselected and are subject to numerical analysis where their mechanical properties are derived on the basis of the space framework theory. Secondly, an extensive experimental evaluation of test specimens is given. This includes examinations of the properties of SLM solids, the producibility of SLM lattice structures in terms of dimensions and testing of their mechanical properties such as strength and elasticity in compression, tension and shear load. The test procedures are divided in three stages. The first stage comprises the examination of the specific strength in dependence of the cell type to narrow down few optimum cell types for different applications. In the second and third stage these cell types are investigated towards their elasticity and strength in dependence of the cell size. Finally, this thesis concludes with scaling laws provided in accordance with the theoretical and experimental results. Opposed to simple power laws used for cellular materials these newly developed scaling laws consider leaps in properties at higher, so-called critical relative densities which can be obtained from SLM due to its high degree of design freedom. At the critical relative density SLM lattice structures cease being frameworks and become rather solids with pores. For future applications these scaling laws can be applied by design engineers to match particular requirements that can only be fulfilled by Laser Freeform Fabrication and its degrees of freedom in design. For the sake of completeness some sample applications in the field of medical implants are given in this thesis, which involve these scaling laws.