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Author: Salah Basheer M. Echrif
Publisher:
ISBN:
Category : Metal-work
Languages : en
Pages : 368
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Book Description
In this thesis, the main focus was on development and enhancement of a non conventional metal forming process called dieless forming or incremental sheet forming that needs further investigations. Incremental sheet forming (ISF) is an emerging metal-forming technology in which the tool motion is controlled numerically. A review of the present state-of-the-art technologies and the potential applications of incremental sheet metal forming are presented to address the approaches and methods that are prevalently applied and to be a guide to identify inadequacies of the current approaches and potential for valuable contributions. Before conducting the experiments, numerical simulation was done to test the capabilities and limitations of the finite element method at simulating the ISF process. The numerical simulations were carried out with regard to the overstretching in depth phenomena, the forming strategy and the evolution of temperature during the process. ISF is complex due to the number of variables involved. Thus, it is not possible to consider that the process has been well assessed; several remaining aspects need to be clarified. Therefore, the effects of some relevant process parameters on thickness and surface roughness variation have been studied experimentally and statistically in order to optimize and enhance the process quality. In terms of sheet thickness, several forming passes were investigated, which has not been done before, by using Taguchi method. It was found according to the characteristic parameters that part slope plays a great role. In terms of surface roughness, investigations have shown that the most important factors influencing the surface roughness are the tool size and the step size. These two studies have led to the derivation of two predictive models that could be used to estimate the final quality of the formed part in terms of thickness distribution and surface roughness, respectively. Furthermore, a new forming strategy was developed to enable ISF to form a cylindrical cup with a higher depth like in deep drawing. In this research, a cup with height more than half of its diameter has been formed. In the conventional processes, temperature is a significant factor while forming. Thus, heat and maximum temperature were investigated in every ISF forming step in order to compare it to the conventional forming processes by using infrared/thermo-graphic camera. It was found that the temperature effect could be neglected due to the very low temperature values measured during the process. The numerical results in terms of sheet thickness distribution and temperature were in close agreement with the experimental results. Thus, the developed simulation module can be used as a design tool which can save time and cost when making prototypes using ISF.
Author: Salah Basheer M. Echrif
Publisher:
ISBN:
Category : Metal-work
Languages : en
Pages : 368
Get Book Here
Book Description
In this thesis, the main focus was on development and enhancement of a non conventional metal forming process called dieless forming or incremental sheet forming that needs further investigations. Incremental sheet forming (ISF) is an emerging metal-forming technology in which the tool motion is controlled numerically. A review of the present state-of-the-art technologies and the potential applications of incremental sheet metal forming are presented to address the approaches and methods that are prevalently applied and to be a guide to identify inadequacies of the current approaches and potential for valuable contributions. Before conducting the experiments, numerical simulation was done to test the capabilities and limitations of the finite element method at simulating the ISF process. The numerical simulations were carried out with regard to the overstretching in depth phenomena, the forming strategy and the evolution of temperature during the process. ISF is complex due to the number of variables involved. Thus, it is not possible to consider that the process has been well assessed; several remaining aspects need to be clarified. Therefore, the effects of some relevant process parameters on thickness and surface roughness variation have been studied experimentally and statistically in order to optimize and enhance the process quality. In terms of sheet thickness, several forming passes were investigated, which has not been done before, by using Taguchi method. It was found according to the characteristic parameters that part slope plays a great role. In terms of surface roughness, investigations have shown that the most important factors influencing the surface roughness are the tool size and the step size. These two studies have led to the derivation of two predictive models that could be used to estimate the final quality of the formed part in terms of thickness distribution and surface roughness, respectively. Furthermore, a new forming strategy was developed to enable ISF to form a cylindrical cup with a higher depth like in deep drawing. In this research, a cup with height more than half of its diameter has been formed. In the conventional processes, temperature is a significant factor while forming. Thus, heat and maximum temperature were investigated in every ISF forming step in order to compare it to the conventional forming processes by using infrared/thermo-graphic camera. It was found that the temperature effect could be neglected due to the very low temperature values measured during the process. The numerical results in terms of sheet thickness distribution and temperature were in close agreement with the experimental results. Thus, the developed simulation module can be used as a design tool which can save time and cost when making prototypes using ISF.
Author: the late Shiro Kobayashi
Publisher: Oxford University Press
ISBN: 0195364570
Category : Technology & Engineering
Languages : en
Pages : 398
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Book Description
The application of computer-aided design and manufacturing techniques is becoming essential in modern metal-forming technology. Thus process modeling for the determination of deformation mechanics has been a major concern in research . In light of these developments, the finite element method--a technique by which an object is decomposed into pieces and treated as isolated, interacting sections--has steadily assumed increased importance. This volume addresses advances in modern metal-forming technology, computer-aided design and engineering, and the finite element method.
Author: Marta C. Oliveira
Publisher: MDPI
ISBN: 3039285564
Category : Technology & Engineering
Languages : en
Pages : 254
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Book Description
The numerical simulation of sheet metal forming processes has become an indispensable tool for the design of components and their forming processes. This role was attained due to the huge impact in reducing time to market and the cost of developing new components in industries ranging from automotive to packing, as well as enabling an improved understanding of the deformation mechanisms and their interaction with process parameters. Despite being a consolidated tool, its potential for application continues to be discovered with the continuous need to simulate more complex processes, including the integration of the various processes involved in the production of a sheet metal component and the analysis of in-service behavior. The quest for more robust and sustainable processes has also changed its deterministic character into stochastic to be able to consider the scatter in mechanical properties induced by previous manufacturing processes. Faced with these challenges, this Special Issue presents scientific advances in the development of numerical tools that improve the prediction results for conventional forming process, enable the development of new forming processes, or contribute to the integration of several manufacturing processes, highlighting the growing multidisciplinary characteristic of this field.
Author: Henry S. Valberg
Publisher: Cambridge University Press
ISBN: 0521518237
Category : Science
Languages : en
Pages : 477
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Book Description
A professional reference for advanced courses in two of the most common manufacturing processes: metal forming and metal cutting.
Author: Amrut Mulay
Publisher: CRC Press
ISBN: 1040027318
Category : Technology & Engineering
Languages : en
Pages : 371
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Book Description
Analysis and Optimization of Sheet Metal Forming Processes comprehensively covers sheet metal forming, from choosing materials, tools and the forming method to optimising the entire process through finite element analysis and computer-aided engineering. Beginning with an introduction to sheet metal forming, the book provides a guide to the various techniques used within the industry. It provides a discussion of sheet metal properties relevant to forming processes, such as ductility, formability, and strength, and analyses how materials should be selected with factors including material properties, cost, and availability. Forming processes including shearing, bending, deep drawing, and stamping are also discussed, along with tools such as dies, punches, and moulds. Simulation and modelling are key to optimising the sheet metal forming process, including finite element analysis and computer-aided engineering. Other topics included are quality control, design, industry applications, and future trends. The book will be of interest to students and professionals working in the field of sheet metal and metal forming, materials science, mechanical engineering, and metallurgy.
Author: Sreekanth G. Teeparthi
Publisher:
ISBN:
Category : Finite element method
Languages : en
Pages : 244
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Book Description
Author: Ming Wang Fu
Publisher: Springer
ISBN: 3319464647
Category : Technology & Engineering
Languages : en
Pages : 258
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Book Description
This book presents state-of-the-art research on forming processes and formed metal product development aided by the Finite Element Method (FEM). Using extensive and informative illustrations, tables and photographs, it systematically presents real-life case studies and established findings regarding various forming processes and methods aided by FEM simulation, and addresses various issues related to metal formed part design, process determination, die design and die service life analysis and prolongation, as well as product quality assurance and improvement. Metal forming has been widely used in many industries. This traditional manufacturing process, however, has long been linked to many years of apprenticeship and skilled craftsmanship, and its conventional design and development paradigm appeared to involve more know-how and trial-and-error than in-depth scientific calculation, analysis and simulation. The design paradigm for forming processes and metal formed product development thus cannot meet the current demands for short development lead-times, low production costs and high product quality. With the advent of numerical simulation technologies, the design and development of forming processes and metal formed products are carried out with the aid of FEM simulation, allowing all the potential design spaces to be identified and evaluated, and the best design to ultimately be determined and implemented. Such a design and development paradigm aims at ensuring “designing right the first time” and reducing the need for trial-and-error in the workshop. This book provides postgraduates, manufacturing engineers and professionals in this field with an in-depth understanding of the design process and sufficient knowledge to support metal formed part design, forming process determination, tooling design, and product quality assurance and control via FEM simulation. “/p>
Author: Hardayal S. Mehta
Publisher:
ISBN:
Category : Finite element method
Languages : en
Pages : 192
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Book Description
Author: Anna Carla Araujo
Publisher: Materials Research Forum LLC
ISBN: 164490313X
Category : Technology & Engineering
Languages : en
Pages : 2957
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Book Description
These ESAFORM 2024 conference proceedings cover a wide range of topics: Additive manufacturing; Composites forming processes; Extrusion and drawing; Forging and rolling; Formability of metallic materials; Friction and wear in metal forming; Incremental and sheet metal forming; Innovative joining by forming technologies; Optimization and inverse analysis in forming; Machining, Cutting and severe plastic deformation processes; Material behavior modelling; New and advanced numerical strategies for material forming; Non-conventional processes; Polymer processing and thermomechanical properties; Sustainability on material forming. Keywords: WAAM Technology, Fused deposition Modeling (FDM), Fiber Composite Printers, Ultrasonic Powder Atomization, Finite Element Modeling (FEM), Laser Powder Bed Fusion (L-PBF), Rapid Prototyping in Additive Manufacturing, Directed Energy Deposition (DED), GTAW Droplet Deposition, Deep Learning, Thermoplastic Pultrusion, Textile Reinforcements, Thermoforming Simulation, New Sustainable Materials, Non-Crimp Fabrics, CFRP Scraps, PEEK Composites, Thermoplastic Sheets, Flax/PP Composites.
Author: Ajay
Publisher: CRC Press
ISBN: 1000179869
Category : Technology & Engineering
Languages : en
Pages : 142
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Book Description
Incremental Sheet Forming (ISF) exempts use of dies and reduces cost for manufacturing complex parts. Sheet metal forming is used for producing high-quality components in automotive, aerospace, and medical industries. This book covers the benefits of this new technology, including the process parameters along with various techniques. Each variant of this novel process is discussed along with the requirements of machinery and hardware. In addition, appropriate guidelines are also suggested regarding the relationship between process parameters and aspects of ISF process in order to ensure the applicability of the process on the industrial scale. This book will be a useful asset for researchers, engineers in manufacturing industries, and postgraduate level courses.
