Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Identification
Abstract
Constitutive Modeling of Engineering Materials provides an extensive theoretical overview of elastic, plastic, damage, and fracture models, giving readers the foundational knowledge needed to successfully apply them to and solve common engineering material problems. Particular attention is given to inverse analysis, parameter identification, and the numerical implementation of models with the finite element method. Application in practice is discussed in detail, showing examples of working computer programs for simple constitutive behaviors. Examples explore the important components of material modeling which form the building blocks of any complex constitutive behavior.
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Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Ident, 2021, 1-317Publisher:
- Elsevier
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Mašinski fakultetTY - BOOK AU - Buljak, Vladimir AU - Ranzi, G. PY - 2021 UR - https://machinery.mas.bg.ac.rs/handle/123456789/3651 AB - Constitutive Modeling of Engineering Materials provides an extensive theoretical overview of elastic, plastic, damage, and fracture models, giving readers the foundational knowledge needed to successfully apply them to and solve common engineering material problems. Particular attention is given to inverse analysis, parameter identification, and the numerical implementation of models with the finite element method. Application in practice is discussed in detail, showing examples of working computer programs for simple constitutive behaviors. Examples explore the important components of material modeling which form the building blocks of any complex constitutive behavior. PB - Elsevier T2 - Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Ident T1 - Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Identification EP - 317 SP - 1 DO - 10.1016/B978-0-12-814696-5.00002-2 ER -
@book{ author = "Buljak, Vladimir and Ranzi, G.", year = "2021", abstract = "Constitutive Modeling of Engineering Materials provides an extensive theoretical overview of elastic, plastic, damage, and fracture models, giving readers the foundational knowledge needed to successfully apply them to and solve common engineering material problems. Particular attention is given to inverse analysis, parameter identification, and the numerical implementation of models with the finite element method. Application in practice is discussed in detail, showing examples of working computer programs for simple constitutive behaviors. Examples explore the important components of material modeling which form the building blocks of any complex constitutive behavior.", publisher = "Elsevier", journal = "Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Ident", title = "Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Identification", pages = "317-1", doi = "10.1016/B978-0-12-814696-5.00002-2" }
Buljak, V.,& Ranzi, G.. (2021). Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Identification. in Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Ident Elsevier., 1-317. https://doi.org/10.1016/B978-0-12-814696-5.00002-2
Buljak V, Ranzi G. Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Identification. in Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Ident. 2021;:1-317. doi:10.1016/B978-0-12-814696-5.00002-2 .
Buljak, Vladimir, Ranzi, G., "Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Identification" in Constitutive Modeling of Engineering Materials: Theory, Computer Implementation, and Parameter Ident (2021):1-317, https://doi.org/10.1016/B978-0-12-814696-5.00002-2 . .