Post on 31-May-2020
C A L L F O R C O N T R I B U T I O N S Due to limited amount of seats, admission will be based on a 2-page abstract of current activities. Oral and poster sessions of presentations from participants will be also organised.
Abstract submission deadline: 01-Nov-2018
Notification of acceptance: 15-Dec-2018.
R E G I S T R A T I O N Early registration fee: €150 (until 15-Jan-2019)
Late registration fee: €200 (until 15-Feb-2019) On-site registration is not available.
The fee covers attendance to the pre-course and to all lectures, lecture notes, coffee breaks, lunches and a social event.
Participation to the pre-course is included in the registration fees but it must be confirmed in advance (before 15-Feb-2019).
20.- 22. March 2019 Hannover, Germany
RESE ARC H CHA LL EN G ES
IN ME C HANI CS NOVEL METHODS AND APPLICATIONS FOR
AUTOMATED COMPUTATIONAL MODELLING
WORKSHOP - CONFERENCE
F U R T H E R I N F O R M A T I O N Please visit our website at:
www.rcm2019.uni-hannover.de for manuscript templates, submission, registration and other conference queries.
T O P I C S • Nonlinear constitutive modelling • Fracture and damage mechanics • Computational multiscale modelling • Computational contact mechanics • Multiphysics and coupled problems • Non-traditional computational techniques RCM2019
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A I M S A N D D E S C R I P T I O N RCM2019 aims to collect recent results in Mechanics and to present novel challenges for dealing with modern engineering applications, such as advanced composite materials, manufacturing technologies, energy harvesting and bioengineering. The workshop-conference wi l l a l low young researchers to gain experience beyond their primary research area and to apply innovative concepts of computational mechanics. In particular, the potentialities of Automated Computational Modelling (ACM) will be highlighted. This technique allows to speed up the process of generating novel and nonlinear computational environments, leading to a great advantage for teaching, research and industry. RCM2019 couples a traditional instructive format with interactive sessions. Lectures are given by invited professors and selected participants. Moreover, participants will be divided in teams and hands-on projects on modern research issues will be assigned to each team. The projects will allow to explore and apply the potentialities of ACM, and in particular of the Mathematica package AceGen. Awards will be handed out for the best solutions.
A U D I E N C E RCM2019 is primarily targeted at young research assistants, doctoral students, post-doctoral scholars and early stage researchers.
L O U R E N C O B E I R Ã O D A V E I G A University of Milan Bicocca An introduction to Virtual Elements with a focus on structural mechanics
F E R D I N A N D O A U R I C C H I O University of Pavia
Advanced constitutive modelling of inelastic constitutive laws
J Ö R G S C H R Ö D E R Universität Duisburg-Essen Stress-Displacement based Mixed Finite Elements Extended to Hyperelasticity
O R G A N I Z I N G C O M M I T T E E Blaž Hudobivnik, IKM, Leibniz Universität Michele Marino, IKM, Leibniz Universität Lukas Munk, IKM, Leibniz Universität
I N V I T E D L E C T U R E R S S U G G E S T E D R E A D I N G S Beirao da Veiga L., Brezzi F., Cangiani A., Marini L.D., Manzini G., Russo A. Basic principles of Virtual Element Methods, Math. Models and Meth. Appl. Sci. 23:199-214 (2013)
Beirao da Veiga L., Lovadina C., Mora D. Virtual Elements for elastic and inelastic small deformation problems on polygonal meshes, Comput. Meth. Appl. Mech. Eng. 295: 327-346 (2015)
Korelc J., Wriggers P. Automation of Finite Element Methods. Springer (2016)
Scalet G., Conti M., Auricchio F. Computational Analysis of Advanced Shape-Memory Alloy Devices Through a Robust Modeling Framework, Shape Memory and Superelasticity 3: 109-123 (2017)
Schröder J., Viebahn N., Balzani D., Wriggers P. A novel mixed finite element for finite anisotropic elasticity; the SKA-element. Comp. Meth. Appl. Mech. Eng. 310:475-494 (2016)
Schröder J., Viebahn N., Wriggers P., Auricchio F., Steeger K. On the stability analysis of hyperelastic boundary value problems using three- and two-field mixed finite element formulations. Comp. Mech. 60:479-492 (2017)
Wriggers P., Hudobivink B. A low order virtual element formulation for finite elasto-plastic deformations. Comp. Meth. Appl. Mech. Eng. 327:459-477 (2017)
P E T E R W R I G G E R S Leibniz Universität Hannover ACM for modern finite element technologies: mixed formulations and VEM
S E C R E T A R I A T Aidin Hajikhani, Leibniz Universität Hannover, Institute of Continuum Mechanics, Appelstr. 11, 5th Floor, 30167 Hannover (DE) rcm2019@music.uni-hannover.de +49 (0) 511-762-17558
COMPUTATIONAL MATERIAL MODELLING
NUMERICAL METHODS
T H E M A T I C L E C T U R E SNovel features of AceGen/AceFEM Jože Korelc (University of Ljubljana)
Automated Computational Modeling for industrial applications: interfacing with commercial codes Blaž Hudobivnik (Leibniz Universität)
Automated Computational Modeling in teaching Michele Marino (Leibniz Universität)
ACM implementation issues on the topic will be discussed by Dr Giulia Scalet
ACM implementation issues on the topic will be discussed by Mr Nils Viebahn
P R E - C O U R S E : A C M F O R F E M The workshop will follow a one-day pre-course (held on March, 19th) on ACM for Finite Element technologies. Participants will be instructed with basic concepts of combined symbolic-numeric coding, highlighting the advantages gained in the presence of material and geometrical nonlinearities. In particular, the course will introduce the use of the Mathematica package AceGen. The instructors will be Dr. Michele Marino and Dr. Blaž Hudobivnik.