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Books by Keyword: Finite Element (FE) Simulation
Books
Edited by:
N. Ohno and T. Uehara
Online since: June 2007
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
This edited collection of 240 peer-reviewed articles covers a broad range of topics dealing with plasticity in various materials, such as metals, composites, polymers, foams, soils, and rocks at the nano-, micro- and macro-scales. These informative papers will bring the reader fully up-to-date with the latest research efforts advancing on a broad range of fronts in engineering plasticity
This edited collection of 240 peer-reviewed articles covers a broad range of topics dealing with plasticity in various materials, such as metals, composites, polymers, foams, soils, and rocks at the nano-, micro- and macro-scales. These informative papers will bring the reader fully up-to-date with the latest research efforts advancing on a broad range of fronts in engineering plasticity
Edited by:
Matthias Kleiner, Jürgen Fleischer, Michael Zäh and Marco Schikorra
Online since: February 2006
Description: Integrated manufacturing of lightweight components is of increasing importance for production engineering in today’s industrial climate. Due to the market’s need for high geometrical flexibility, combined with small batch sizes and short production cycles, the requirements of customers are becoming increasingly stringent.
Edited by:
W.P. Shen and J.Q. Xu
Online since: October 2004
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
These proceedings comprise the 192 papers which were presented at the Seventh Asia-Pacific Symposium on Engineering Plasticity and Its applications (AEPA2004), held on the 22nd to 26th September 2004 at Shanghai Jiaotong University, P.R.China.
These proceedings comprise the 192 papers which were presented at the Seventh Asia-Pacific Symposium on Engineering Plasticity and Its applications (AEPA2004), held on the 22nd to 26th September 2004 at Shanghai Jiaotong University, P.R.China.
Edited by:
A.J. Böttger, R. Delhez and Prof. Eric Jan Mittemeijer
Online since: May 2000
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
Materials, as utilized, experience the effect of residual, internal stresses, as these are the outcome of the material synthesis and/or engineering, and/or application in practice. Understanding and control of residual stresses is a prerequisite for successful application of materials in wide ranging areas as corresponding to, e.g., the microelectronic industry (thin films) and the automotive industry (crankshafts).
Materials, as utilized, experience the effect of residual, internal stresses, as these are the outcome of the material synthesis and/or engineering, and/or application in practice. Understanding and control of residual stresses is a prerequisite for successful application of materials in wide ranging areas as corresponding to, e.g., the microelectronic industry (thin films) and the automotive industry (crankshafts).
Edited by:
T.X. Yu, Q.P. Sun and J.K. Kim
Online since: April 2000
Description: Volume is indexed by Thomson Reuters CPCI-S (WoS).
From the early industrial revolution, metal working has been the major driving force for the development of many manufacturing technologies. “Advances in Engineering Plasticity” reports on recent developments in the field of metal forming and plasticity research from both the fundamental science and industrial application perspective.
From the early industrial revolution, metal working has been the major driving force for the development of many manufacturing technologies. “Advances in Engineering Plasticity” reports on recent developments in the field of metal forming and plasticity research from both the fundamental science and industrial application perspective.