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<h4>Welcome!</h4>
 
Welcome to our Materials CyberSpace!  Included in this CyberSpace is a collection of materials databases and multiple size scale codes to facilitate designing and developing the next generation materials and structural components. Our hope is that creating this cyberinfrastructure will result in developing the “community of practice” portal for development and integration of multiscale physics-based materials models for selected properties and processes. [[About EVOCD|Read more...]]
 
 
If you have any questions or comments regarding this website, please feel free to contact us at haupt@cavs.msstate.edu.  Thanks and have fun lightweighting your designs using our tools.
 
 
Sincerely,
 
  
 
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<h4>Integrated Computational Material Engineering (ICME)</h4>
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Integrated Computational Material Engineering (ICME) is “an emerging discipline that aims to integrate computational materials science tools into a holistic system that can accelerate materials development, transform the engineering design optimization process, and unify design and manufacturing” [14]. The notion of ICME arose from the new simulation-based design paradigm that employs a hierarchical multiscale modeling methodology for optimizing load-bearing structures. The methodology integrates material models with structure-property relationships that are observed from experiments at different length scales. ICME emerged because of the recent confluence of smaller desktop computers with enhanced computing power coupled with the development of physically-based material models and associated methods to experimentally validate in-situ rate effects [15]. ICME continues to evolve, its revolutionary vision progressively adapting to assimilate advances in IT, multiscale simulation technology, and the underlying sciences of engineering (applied mathematics, physics of materials, different length scales, etc.). [[About EVOCD|Read more...]]
 
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Revision as of 15:52, 23 June 2011

Engineering Virtual Organization for CyberDesign
DOE Southern Regional Center for Lightweight Innovative Design (SRCLID)

CAVS logo 3D.jpg MSUlogo2.jpg

Integrated Computational Material Engineering (ICME)

Integrated Computational Material Engineering (ICME) is “an emerging discipline that aims to integrate computational materials science tools into a holistic system that can accelerate materials development, transform the engineering design optimization process, and unify design and manufacturing” [14]. The notion of ICME arose from the new simulation-based design paradigm that employs a hierarchical multiscale modeling methodology for optimizing load-bearing structures. The methodology integrates material models with structure-property relationships that are observed from experiments at different length scales. ICME emerged because of the recent confluence of smaller desktop computers with enhanced computing power coupled with the development of physically-based material models and associated methods to experimentally validate in-situ rate effects [15]. ICME continues to evolve, its revolutionary vision progressively adapting to assimilate advances in IT, multiscale simulation technology, and the underlying sciences of engineering (applied mathematics, physics of materials, different length scales, etc.). Read more...

EVOCD components

Site Index

Call for Participation

The Cyberinfrastructure team created the infrastructure for web-based collaborative efforts. The success of this effort critically depends on the participation of the community towards the generation of the contents that will aid the research in Materials Science and lightweight innovative design. Read more ...

To learn how to contribute please see our short Tutorial.

Elements of ICME Cyberinfrastructure

We would also like to invite you to other materials oriented databases: Materials Atlas, nanoHub, matweb, MatData, Granta Design, Knowledgebase of Interatomic Potentials (OpenKIM), Korean Materials Design, MatForge/MatDL

Our Sponsors

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(NSF Award ID: 0742730)

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(DOE contract 4000054701)

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