Skip to main content

Modelling of Interface Evolution in Advanced Welding


Multiscale, Multiphysics Numerical Modeling of Fusion Welding with Experimental Characterization and Validation

Auteurs: Chuangxin Zhao,Jon Dantzig,Jon Dantzig,Yu Xie,Chris R. Kleijn,Hongbiao Dong,A. Kidess,I.M. Richardson,Olga Barrera,Sergio Lozano-Perez,David J. Browne,Alan C.F. Cocks,Roger Barnett,Gregory Duggan,M. F. Dodge,Jun Liu,Shuwen Wen,Mingming Tong,H.S. Kitaguchi,Ruslan L. Davidchack,L. Aucott
Publié dans: Springer Science and Business Media LLC JOM 2013
Identifiant permanent: Digital Object Identifier:10.1007/s11837-012-0499-6,urn:uuid:94c7fa6c-baa4-49fd-b1b9-a28be0a82cb0,urn:uuid:0d989b7e-5306-40f1-a296-9355178ed400

Computational modelling of hydrogen embrittlement in welded structures

Auteurs: A.C.F. Cocks,Olga Barrera
Publié dans: Informa UK Limited 2013
Identifiant permanent: Digital Object Identifier:10.1080/14786435.2013.785638,urn:uuid:86e14ede-5fa5-4516-94d0-c48f513614d1

The influence of surfactants on thermocapillary flow instabilities in low Prandtl melting pools

Auteurs: Sasa Kenjeres,Chris R. Kleijn,A. Kidess
Identifiant permanent: Digital Object Identifier:10.1063/1.4953797,arXiv:1606.05742,urn:urn:NBN:nl:ui:24-uuid:7a096593-15e9-47ad-b1b1-756bcf7a7c22

Time-resolved X-ray diffraction studies of solidification microstructure evolution in welding

Auteurs: M. Di Michiel,Hongbiao Dong,Ragnvald H. Mathiesen,A. Reiten,Wajira Mirihanage,Lars Arnberg
Identifiant permanent: Digital Object Identifier:10.1016/j.actamat.2014.01.040

Multiscale modeling of mesoscale phenomena in weld pools

Auteurs: Kidess, A.
Publié dans: Delft University of Technology Array 2016
Identifiant permanent: Digital Object Identifier:10.4233/uuid:c5fd38bb-5345-48af-bca9-16f1d88744ac,urn:urn:NBN:nl:ui:24-uuid:c5fd38bb-5345-48af-bca9-16f1d88744ac

An integrated model for the post-solidification shape and grain morphology of fusion welds

Auteurs: Sasa Kenjeres,Chris R. Kleijn,Mingming Tong,A. Kidess,Gregory Duggan,David J. Browne,I.M. Richardson
Identifiant permanent: Digital Object Identifier:10.1016/j.ijheatmasstransfer.2015.01.144,arXiv:1503.01471

Marangoni driven turbulence in high energy surface melting processes

Auteurs: B.W. Righolt,Sasa Kenjeres,Chris R. Kleijn,A. Kidess
Identifiant permanent: Digital Object Identifier:10.1016/j.ijthermalsci.2016.01.015,urn:urn:NBN:nl:ui:24-uuid:d2f74e85-3cf9-4946-81f4-29f9875fd47d,arXiv:1603.07124

A micromechanical image-based model for the featureless zone of a Fe–Ni dissimilar weld

Auteurs: Olga Barrera,Alan C.F. Cocks,Edmund Tarleton
Publié dans: TAYLOR & FRANCIS LTD 2014
Identifiant permanent: Digital Object Identifier:10.1080/14786435.2014.886023

On the Fully Implicit Solution of a Phase-Field Model for Binary Alloy Solidification in Three Dimensions

Auteurs: Goodyer, Christopher E.,Jimack, Peter K.
Identifiant permanent: Digital Object Identifier:10.4208/aamm.12-12s07

Initiation and growth kinetics of solidification cracking during welding of steel.

Auteurs: A. C. F. Cocks,Ja A. Marsden,Shuwen Wen,Shuwen Wen,L. Aucott,D. Huang,Alexander Rack,Hongbiao Dong
Publié dans: Springer Science and Business Media LLC EISSN: 2045-2322 2017
Identifiant permanent: Digital Object Identifier:10.1038/srep40255,PubMed Central ID:PMC5225465,PubMed ID:28074852,urn:uri:d1b79edb-cc70-483b-a20c-7bf49dfae0c3

A stereo vision method for tracking particle flow on the weld pool surface

Auteurs: I.M. Richardson,Chuangxin Zhao,Z. S. Saldi,Chris R. Kleijn,Sasa Kenjeres
Identifiant permanent: Digital Object Identifier:10.1063/1.3143789,urn:urn:NBN:nl:ui:24-uuid:0f9c7c00-a527-4d2b-8788-c940b70ca7d6

Using the interface Peclet number to select the maximum simulation interface width in phase-field solidification modelling

Auteurs: Jon Dantzig,Jon Dantzig,Hongbiao Dong,Yu Xie
Identifiant permanent: Digital Object Identifier:10.1016/j.commatsci.2012.12.030

Molecular dynamics calculation of solid–liquid interfacial free energy and its anisotropy during iron solidification

Auteurs: Ruslan L. Davidchack,Hongbiao Dong,J. Liu
Publié dans: Elsevier BV Computational Materials Science 2013
Identifiant permanent: Digital Object Identifier:10.1016/j.commatsci.2013.03.018