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Paperback. Condition: Very Good. No Jacket. May have limited writing in cover pages. Pages are unmarked. ~ ThriftBooks: Read More, Spend Less 1.01.
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The Handbook of China's Financial System
Language: English
Published by Princeton University Press, 2020
ISBN 10: 0691205736 ISBN 13: 9780691205731
hardcover. Condition: New.
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Chemagic
Language: English
Published by World Scientific Publishing Co Pte Ltd, 2008
ISBN 10: 9812837078 ISBN 13: 9789812837073
Condition: Good. Spi. Used book that is in clean, average condition without any missing pages.
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The Handbook of China's Financial System
Language: English
Published by Princeton University Press, 2020
ISBN 10: 0691205736 ISBN 13: 9780691205731
Condition: good. The item shows wear from consistent use, but it remains in good condition and works perfectly. All pages and cover are intact including the dust cover, if applicable . Spine may show signs of wear. Pages may include limited notes and highlighting. May NOT include discs, access code or other supplemental materials.
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Condition: As New. Unread book in perfect condition.
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CheMagic : 50 Chemistry Classics and Magical Tricks
Language: English
Published by World Scientific Publishing Company, 2008
ISBN 10: 9812837078 ISBN 13: 9789812837073
Condition: New.
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Chemagic: 50 Chemistry Classics and Magical Tricks
Language: English
Published by World Scientific Publishing Company, 2008
ISBN 10: 9812837078 ISBN 13: 9789812837073
Condition: New.
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Chemagic: 50 Chemistry Classics and Magical Tricks
Language: English
Published by World Scientific Publishing Company, 2008
ISBN 10: 9812837078 ISBN 13: 9789812837073
Condition: New.
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Chemagic: 50 Chemistry Classics And Magical Tricks
Language: English
Published by World Scientific Publishing Co Pte Ltd, SG, 2008
ISBN 10: 9812837078 ISBN 13: 9789812837073
Seller: Rarewaves.com USA, London, LONDO, United Kingdom
Seller rating 5 out of 5 stars
Paperback. Condition: New. Spi. Find chemistry boring in the classrooms? Cannot remember or understand the concepts? Never thought that it can be used outside the classroom? Now, cheMagic brings together the intelligent use of chemistry concepts, methods and techniques to entertain and captivate your audience while enhancing your understanding of chemistry. From preparation to presentation, no stone is left unturned and no question left unanswered. Learn how to make Pyrex glassware shine, make steam rise from a teapot, and even start a fire that does not burn! Learn while you play! This book will kickstart your learning journey in chemistry and develop you into a true cheMagician!An innovative book developed by NUS High School of Math and Science, Singapore, this book showcases the quality of work and the brand name of a specialist school in science. The book will attract many readers from other schools who want to understand how students experiment, explore and excel in this research-focused environment.
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Condition: As New. Unread copy in mint condition.
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Condition: New. Brand New.
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CheMagic : 50 Chemistry Classics and Magical Tricks
Language: English
Published by World Scientific Publishing Company, 2008
ISBN 10: 9812837078 ISBN 13: 9789812837073
Condition: As New. Unread book in perfect condition.
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Computational Topology for Biomedical Image and Data Analysis: Theory and Applications (Focus Medical Physics and Biomedical Engineering)
Book 2 of 3: Focus Series in Medical Physics and Biomedical EngineeringLanguage: English
Published by CRC Press 2021-03-31, 2021
ISBN 10: 0367787873 ISBN 13: 9780367787875
Paperback. Condition: New.
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The Handbook of China's Financial System
Language: English
Published by Princeton University Press, 2020
ISBN 10: 0691205736 ISBN 13: 9780691205731
Condition: Very Good.
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Condition: New.
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Wei Xiong: Unaltered Landscapes (Paperback or Softback)
Language: English
Published by Artvoices Art Books 2/16/2018, 2018
ISBN 10: 0998748439 ISBN 13: 9780998748436
Paperback or Softback. Condition: New. Wei Xiong: Unaltered Landscapes. Book.
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Condition: New. Brand New! Not Overstocks or Low Quality Book Club Editions! Direct From the Publisher! We're not a giant, faceless warehouse organization! We're a small town bookstore that loves books and loves it's customers! Buy from Lakeside Books!
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Wei Xiong Unaltered Landscapes
Seller: Wonder Book, Frederick, MD, U.S.A.
Seller rating 5 out of 5 stars
Condition: Very Good. Very Good condition. A copy that may have a few cosmetic defects. May also contain light spine creasing or a few markings such as an owner's name, short gifter's inscription or light stamp.
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Condition: New. 1st edition NO-PA16APR2015-KAP.
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Condition: New.
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copy cat marketing 101(Chinese
Published by Contemporary China Publishing House Pub. Date :200, 2000
ISBN 10: 7801706692 ISBN 13: 9787801706690
Seller: World of Books (was SecondSale), Montgomery, IL, U.S.A.
Seller rating 5 out of 5 stars
Condition: Good. Item in very good condition! Textbooks may not include supplemental items i.e. CDs, access codes etc.
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Condition: New.
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Condition: As New. Unread book in perfect condition.
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Paperback. Condition: new. Paperback. One of the most important tools in the metal forming technology is the integrated process and microstructual simulation using Finite Element Methods (FEM). It has become more and more popular in recent years, especially in the segment of hot metal forming, e.g. open die forging of large scaled and hardly deformable materials, such as nickel-based super alloys for turbine shaft. Theoretically using this method it is possible to calculate the microstructual evolution along the whole process chain in the numerical simulation of the considered metal forming process. Based on this knowledge a series of benefits can be achieved for the practice, such as to optimize a present metal forming process, to predict the mechanical properties of the final products under the given forming conditions, to detect the possible product failures prematurely, to assist the design of a new production chain and so on. In the face of these trends of the scientific research as well as the industrial demands, different material models have been released in the market to combine the commercial FEM programs specialized in the numerical simulation of metal forming. Among others microstructure-based ow stress models show outstanding performance. Through this kind of material model not only the microstructure such as recrystallization and grain size, but also the interaction between the microstructual evolution and the working hardening, effectively ow stress, can be quantitatively represented.Towards accurate and efficient material modeling, the model parameters have to be determined conveniently and reliably. For this propose a new Hybrid strategy combining the advantages both of direct and indirect methods has been proposed using the example of StrucSim, which is a very good representative of a mircostructure-based ow stress model. At first different aspects, which lead to the disadvantages of the conventional method, i.e. direct method, were discussed. In doing so a high manganese steel was characterized as an example by stepwise graphical and regression analysis. It was found that, the precondition of direct methods, namely recording ow curves under constant Zener-hollomon-parameter conditions, are basically not possible due to both limitations of test equipment and unconquerable physical mechanism like dissipation heating. The common solution to compensate these factors may lead to further inaccuracies, uncertainties and complexities despite large testing and evaluating efforts. Further in order to improve the model quality calibrated by the conventional direct method an efficient hybrid strategy has been derived by combining inverse analysis with offline calculation of ow stress and microstructure. Three different variations of the hybrid strategy were introduced to deal with different available experimental databases, such as isothermal and non-isothermal ow curves. To demonstrate the developed routines of these three hybrid possibilities two kinds of materials including a nickel-based super alloy and a high manganese steel have been taken into account. The investigation has shown that through the introduced hybrid methods better model quality can be achieved even with less experimental data. Owing to the convenience of the inverse technique much experimental and evaluating effort and complexities can be avoided. Finally, another inverse analysis based on inhomogeneous deformation has been proposed, in which hot compression tests with double cone specimen were employed. Thanks to the inhomogeneity of strain and microstructure distribution within the specimen, it becomes possible to get sufficient relevant information as constraints for the inverse parameterization through even fewer experiments. In addition, the established routine of a hybrid strategy as well as the inverse analysis based on non-uniform deformation enhances the trans Shipping may be from multiple locations in the US or from the UK, depending on stock availability.
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Adaption of new strategies for parameterization of a microstructure-based flow stress model
Seller: Rarewaves.com USA, London, LONDO, United Kingdom
Seller rating 5 out of 5 stars
Paperback. Condition: New. One of the most important tools in the metal forming technology is the integrated process and microstructual simulation using Finite Element Methods (FEM). It has become more and more popular in recent years, especially in the segment of hot metal forming, e.g. open die forging of large scaled and hardly deformable materials, such as nickel-based super alloys for turbine shaft. Theoretically using this method it is possible to calculate the microstructual evolution along the whole process chain in the numerical simulation of the considered metal forming process. Based on this knowledge a series of benefits can be achieved for the practice, such as to optimize a present metal forming process, to predict the mechanical properties of the final products under the given forming conditions, to detect the possible product failures prematurely, to assist the design of a new production chain and so on. In the face of these trends of the scientific research as well as the industrial demands, different material models have been released in the market to combine the commercial FEM programs specialized in the numerical simulation of metal forming. Among others microstructure-based ow stress models show outstanding performance. Through this kind of material model not only the microstructure such as recrystallization and grain size, but also the interaction between the microstructual evolution and the working hardening, effectively ow stress, can be quantitatively represented.Towards accurate and efficient material modeling, the model parameters have to be determined conveniently and reliably. For this propose a new Hybrid strategy combining the advantages both of direct and indirect methods has been proposed using the example of StrucSim, which is a very good representative of a mircostructure-based ow stress model. At first different aspects, which lead to the disadvantages of the conventional method, i.e. direct method, were discussed. In doing so a high manganese steel was characterized as an example by stepwise graphical and regression analysis. It was found that, the precondition of direct methods, namely recording ow curves under constant Zener-hollomon-parameter conditions, are basically not possible due to both limitations of test equipment and unconquerable physical mechanism like dissipation heating. The common solution to compensate these factors may lead to further inaccuracies, uncertainties and complexities despite large testing and evaluating efforts. Further in order to improve the model quality calibrated by the conventional direct method an efficient hybrid strategy has been derived by combining inverse analysis with offline calculation of ow stress and microstructure. Three different variations of the hybrid strategy were introduced to deal with different available experimental databases, such as isothermal and non-isothermal ow curves. To demonstrate the developed routines of these three hybrid possibilities two kinds of materials including.
