EXTENDED ABSTRACT TITLE
*First A. Author1, Second B. Author 2 and Third C. Author3
1School of Wisdom, University of Light, postal address, town, EH14 4AS
2Department of Sciences, University of Knowledge, postal address, town, DH1 3LE
3Industry Company, Business Group, postal address, town, CF5 2PH
*
Key Words: structures; geomechanics; biomechanics; fluids; computational methods
ABSTRACT
We are pleased to inform you that your paper has been accepted for presentation at the 19th ACME-UK conference. Authors are invited to submit electronically a 4-page extended abstract to: by 1st March 2011. A book of extended abstracts will be produced from your original. So please make sure your paper has the correct content and format.
1 INTRODUCTION
We thank you for your participation in ACME-UK and look forward to meeting you in Edinburgh on April 5-6, 2011. Please remember to register for the conference by 21st March full details are on the conference web site: www.sbe.hw.ac.uk/acme2011
The Conference organising committee is particularly keen to encourage the participation of young researchers, including PhD students and Research Assistants. A special discounted registration fee is available for delegates in these categories and there will be prizes for the best papers.
The 19th ACME Conference is preceded by the 1st ACME School, on Monday 4th April 2011 between 14:00 - 18:00. It consists of a series of lectures given by established ACME members on new research trends in computational mechanics. All participants are welcome to attend, in particular PhD students and Research Assistants. The presence of academics would strengthen this initiative and encourage its continuity in the future. The 1st ACME school is free of charge.
We look forward to welcoming you to Edinburgh where we will make every effort to ensure you experience Scotland’s friendly atmosphere.
R eferences
[1] N. Bicanic and O.C. Zienkiewicz. Constitutive model for concrete under dynamic loading. Earthquake Engineering and Structural Dynamics, 11, 689-710, 1983.
[2] O.C. Zienkiewicz and R.C. Taylor, The finite element method, 4th Edition, Vol. I, McGraw Hill, 1989.