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CEN ISO/TS 18166:2016

Current

Current

The latest, up-to-date edition.

Numerical welding simulation - Execution and documentation (ISO/TS 18166:2016)

Published date

30-03-2016

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European foreword
Foreword
1 Scope
2 Normative references
3 Terms and definitions
4 Description of the problem
5 Workflow
6 Validation and verification
7 Reporting/display of results
Annex A (informative) - Documentation template
Annex B (informative) - Modelling of heat transfer during welding
Annex C (informative) - Validation experiment guidelines
Annex D (informative) - Modelling of residual stresses
Annex E (informative) - Distortion prediction
Bibliography

ISO/TS 18166:2016 provides a workflow for the execution, validation, verification and documentation of a numerical welding simulation within the field of computational welding mechanics (CWM). As such, it primarily addresses thermal and mechanical finite element analysis (FEA) of the fusion welding (see ISO/TR 25901:2007, 2.165) of metal parts and fabrications.CWM is a broad and growing area of engineering analysis.ISO/TS 18166:2016 covers the following aspects and results of CWM, excluding simulation of the process itself:- heat flow during the analysis of one or more passes;- thermal expansion as a result of the heat flow;- thermal stresses;- development of inelastic strains;- effect of temperature on material properties;- predictions of residual stress distributions;- predictions of welding distortion.ISO/TS 18166:2016 refers to the following physical effects, but these are not covered in depth:- physics of the heat source (e.g. laser or welding arc);- physics of the melt pool (and key hole for power beam welds);- creation and retention of non-equilibrium solid phases;- solution and precipitation of second phase particles;- effect of microstructure on material properties.The guidance given by this Technical Specification has not been prepared for use in a specific industry. CWM can be beneficial in design and assessment of a wide range of components. It is anticipated that it will enable industrial bodies or companies to define required levels of CWM for specific applications.This Technical Specification is independent of the software and implementation, and therefore is not restricted to FEA, or to any particular industry.It provides a consistent framework for-primary aspects of the commonly adopted methods and goals of CWM (including validation and verification to allow an objective judgment of simulation results).Through presentation and description of the minimal required aspects of a complete numerical welding simulation, an introduction to computational welding mechanics (CWM) is also provided. (Examples are provided to illustrate the application of this Technical Specification, which can further aid those interested in developing CWM competency).Clause 4 of this Technical Specification provides more detailed information relating to the generally valid simulation structure and to the corresponding application. Clause 5 refers to corresponding parts of this Technical Specification in which the structure for the respective application cases is put in concrete terms and examples are given. Annex A presents a documentation template to promote the consistency of the reported simulation results.

Committee
CEN/TC 121
DocumentType
Technical Specification
PublisherName
Comite Europeen de Normalisation
Status
Current

ISO/TR 25901:2007 Welding and related processes Vocabulary
AWS A9.5 : 2013 GUIDE FOR VERIFICATION AND VALIDATION IN COMPUTATION WELD MECHANICS
ISO 4063:2009 Welding and allied processes — Nomenclature of processes and reference numbers

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