10th international conference on advances in … 2015/2015_conference... · 10th international...
TRANSCRIPT
10th International Conference on Advances in Experimental Mechanics
Conference Handbook
1-3 September 2015 • Heriot-Watt University, Edinburgh
Sponsored by
Sponsored by Co-sponsors
3
Co-sponsors
Exhibitors
Download this Handbook and Programme at bssm.org/Programme15
Foreword Page 4
Conference Venue Page 5
Exhibition EMex 15 Page 8
Instructions for Presenters Page 9
Plenary Speakers Page 10
BSSM Measurements Lecture Page 11
BSSM Fylde Electronics Strain Paper Presentation Page 12
BSSM Young Stress Analyst (YSA) Competition Page 13
Scientific Committee Page 14
Social Programme Page 15
Accommodation Page 16
Pre-conference Short Courses Page 17
Local Information Page 22
Conference Programme Page 23
Contents
4 5
Foreword Conference Venue
The conference sessions take place in James Watt Centre 2, James Watt Hall.
Wi-Fi is available throughoutConnecting to KeySurf Wi-FiTo connect to the Wi-Fi service please follow the steps below when you arrive at the venue:
1. View wireless connections available
2. Select KeySurf
3. Open browser, login page for KeySurf will appear
4. Select “Create Account”
5. Enter the following details: a. Enter date of birth
b. Read and agree to the terms & conditions of use
6. Select “Continue to package selection”
7. Select the “No Charge” package
8. Select “Continue Registration”
9. Enter the following details:
a. Enter a user name of your choice (please write this down as you will need it later)
b. Your name
c. Your email address
d. Your telephone number
e. The address that should be used is Heriot Watt University, Edinburgh, EH14 4AS
10. Continue to Confirmation – this will display a screen which summarises the information you have given
11. Select “Create Account”
12. Your password will be displayed, again please note this down as you will need it each time to sign into your account
13. Select “Sign In”
HelpIf you have any queries or have issues logging on the system please contact the help desk on0300 103 0000 or email [email protected]
Registration and Help DeskThe registration desk is situated in the foyer of the James Watt Centre 2 and will open on Tuesday 1st September from 8.30am and throughout the conference. The registration desk is also the help desk if you have any queries.
Sessions will take place in:Plenary Lecture TheatreGibson Rooms 1 and 2Craig Rooms 1 and 2During the coffee breaks refreshments will be served in the foyer of the James Watt Centre 2.
On Wednesday a finger buffet lunch will be served in the exhibition area (see information on the exhibition page 8).
On Thursday lunch will be served in the Foyer of the James Watt Centre 2. Lunch on both days will be a self-service buffet with a choice including vegetarian options.
If you have requested a special meal other than vegetarian then this will be set aside for you, Please inform staff.
Throughout the conference there is an Event Support Team on duty to help you. Please look for the distinctive blue tee shirts.
If you wish to store your luggage at the venue on the last day of the conference there will be a special baggage store located by the reception desk. If you are not staying at the campus please bring your luggage to the reception desk where Amanda Boaler will arrange storage.
Look out for the BSSM flags at the entrance to James Watt Centre 2.
Welcome to Heriot-Watt University and the BSSM’s 10th International Conference on Advances in Experimental Mechanics.
The BSSM sits at the interface between industry, academia and the wider engineering community and promotes their interaction to ensure the wide dissemination of new ideas and best practice in the field of engineering measurement.
This conference focuses on research which advances experimental techniques across the very widest range of applications in mechanics, including stress, strain and vibration analysis. The conference is partnered by the Institute of Physics Applied Mechanics Group to incorporate Modern Practice in Stress and Vibration Analysis (MPSVA).
In addition to the main conference, this year’s event includes all the ‘traditional extras’, including the BSSM Measurements Lecture, the annual BSSM EMex exhibition of experimental mechanics, the BSSM Young Stress Analyst Competition and BSSM short courses.
We are looking forward to a technically excellent conference and we are very grateful to the authors for their efforts in producing their contributions to the programme.
We also thank the organising committee without whom the conference would not have been be possible, in particular Mrs Amanda Boaler (conference secretariat), Mrs Biana Gale (EMex), Prof Margaret Lucas and Prof Simon Quinn (for providing continuity with previous BSSM conferences), Dr Rachael Tighe (YSA Competition) and Dr Cris Mares (IoP Applied Mechanics Group).
We hope you enjoy the conference and its many events, all of which are described in this handbook. If you require any assistance during the conference please do not hesitate to contact the Conference main desk for help.
Prof Andrew Moore, Heriot-Watt University
Prof Bob Reuben, Heriot-Watt University
Event Support Team 10th International Conference on Advances in
Experimental Mechanics
6 7
Car Park C is not available for delegates
Conference Venue
How to find ushttp://www.hw.ac.uk/student-life/campus-life/edinburgh/getting-around.htm
Maps & directions to Edinburgh CampusOur Edinburgh Campus is about 6 miles from the city centre. It’s well served by frequent local bus services and is also easy to access by car.The easiest way to plan your journey to the campus is to use the Traveline Scotland Journey Planner, which uses up-to-date public transport timetables.
CarThe Edinburgh Campus is easy to access by car from the centre of Edinburgh and from all major routes leading to the city. The University is half a mile from the Calder Junction of the A720 City of Edinburgh by-pass and the A71, and you’ll see signs for Heriot-Watt University on your approach.
Visitor parkingYou can find the location of the visitor car parks on the map of Edinburgh Campus.• Visitors to the University should use car park A or B. Car park C is not available for delegates• Disabled visitors can use the accessible car park at Gait 10 next to the Centre for Sport & Exercise. Additional accessible parking spaces are available throughout the campus; you can contact us to reserve one.
BusLothian Buses offers local bus services 25, X25, 34, 45 and N25/N34 (night bus) to the Edinburgh Campus. Service 25 is the most frequent, leaving the city centre every 10 minutes during the day, and every 15 minutes after 8.00pm. The journey takes about 30–40 minutes from the city centre, depending on what time of day you’re travelling. Fares from the city cost £1.50 single/£3.50 day ticket. Note that exact money is required for Lothian Buses (with the exception of Airlink) but you can pay for tickets using your mobile phone, if preferred. Regular travellers to the campus should consider getting a Ridacard.All national coach services to Edinburgh arrive at St Andrew Square bus station, at the east end of Princes Street. Timetables can be found on the Citylink and National Express websites.
TaxiA number of taxi services, such as Central Taxis, are available at taxi ranks in the centre of Edinburgh, including Waverley and Haymarket rail stations and St Andrew Square bus station, as well as at Edinburgh airport. The journey to Heriot-Watt University takes about 20–30 minutes from the city centre, and about 10 minutes from Edinburgh airport. A return journey to the city centre costs about £30.You can request an outbound taxi from the Edinburgh Campus at the main reception desk.
RailThe mainline rail network serves the centre of Edinburgh well. Edinburgh Waverley is at the east end of Princes Street and Haymarket Station is at the west end. Curriehill Station, one mile from the University, offers a frequent service to Edinburgh Waverley and a service to Glasgow Central Station.We do not recommend alighting at either Edinburgh Park or Curriehill as there is no direct transport link to the campus from these stations. Proceed to Haymarket and catch a number 25 bus from Dalry Road (terminating at Riccarton).Rail timetables can be found on the National Rail website.
AirEdinburgh International Airport is served by scheduled national and international flights. The airport is on the west side of the city, just three miles from the Edinburgh Campus.The bus journey from the airport takes about an hour. The Airlink bus takes you to the city centre (£7 return), then you can take a Lothian Buses service 25, X25, 34, 45 or N25 (night bus) from the city centre to the campus.The taxi journey from the airport to the campus takes about 10 minutes and costs about £25 return.
Find out more about getting around EdinburghUse our detailed Edinburgh Campus map to help you find your way around the buildings on campus.
Download the Edinburgh City offers app at the following link http://www.conventionedinburgh.com/attending-a-conference/edinburgh-rewards-passport/
EDINBURGHCONFERENCE CENTRE AT
HERIOT-WATT UNIVERSITY
PRINCES
STREET
FERRY ROAD
LEIT
H WALK
QUEENSFERRY ROAD
GLASGOW ROAD
CALDER ROAD
LANARK R
OAD
DALKEITH ROAD
GILMERTON ROAD
CITY OF EDINBURGH BYPASS
M90
A90
M9TO STIRLING
M8TO GLASGOW
A71TO LIVINGSTON
A70TO LANARK
A702TO BIGGAR
AND THE SOUTH
A89
A8
A703
A701
A68
A1TO SOUTH
TO NORTHBY FORTH ROAD
BRIDGE
TelfordRoundabout
A902
BarntonJunction
GogarRoundabout
CalderJunction
BabertonJunction
DreghornJunction Lothianburn
Junction
StraitonJunction
LasswadeJunction
GilmertonJunction
SheriffhallRoundabout
Old CraighallJunction
ARTHUR’SSEAT
WAVERLEYSTATION
HAYMARKETSTATION
ST ANDREWSQUARE
BUS STATION
FIRTH OF FORTH
Currie
Riccarton
Mains R
oad
AIRPORT
Scale 1 2 3 4 5 miles
N
HermistonJunction
CurriehillStation
Some useful contactshttp://www.edinburghairport.com/http://www.nationalrail.co.uk/http://www.taxis-edinburgh.co.uk/http://lothianbuses.com/http://www.citylink.co.uk/
The Lawn
The Loch
Car Park C
Car Park B
Car Park A
A71 Kilmarnock
A71 City Centre Research Park North
Research Park South
A70 Currie
, Lanark
Park & Ride
Main Reception and Edinburgh
Conference Centre
Bus Terminal
Main Entrance
c
d
f
n
g
h
i
j
kl
22
20
2117
19
15
12
14
13
C
6
74
8
M
3
2
9
5 L
10
K 11
16
J I
H
G
E
D
BA
1Y
ZC
18
F
m
30 263132
2829
27
EDINBURGH CONFERENCE CENTRE
1 James Watt I (Auditorium) James Watt II
Meeting Rooms Y Leonard Horner Conference Lounge
Z 2nd Floor: Cedar Room, Cedar Suite Oak Room, Beech Room
1st Floor: Lecture Theatre 4 Ground Floor: Lecture Theatres 1–3
HUGH NISBET BUILDING Catering Outlets C 2nd Floor: College Lounge
1st Floor: Central Food Court Brio Ground Floor: Elements The Piece
SERVICES
A George Heriot Wing - Gait 9 B Health Centre - Gait 9 C Gardeners Cottage: Transition Heriot-Watt
D Students Union - Gait 7 E Estates Services / Research Park Office - Gait 6 F Recycling Centre - Gait 5
G Media Services: Graphics and Printing - Gait 6 H Procurement Services - Gait 6 I Mail Room - Gait 6 J Nursery - Gait 1 K Chaplaincy - Gait 4 L Media Services: Audio Visual - Gait 12 M International Study Centre
EC02
15
Edinburgh Campuswww.hw.ac.uk/directions
RESIDENCES AND FLATS Residences North - Gait 1 c Ettrick Hall
d Yarrow Hall
f Caddon Hall
Residences West g Lord Thomson Hall - Gait 16 h George Burnett Hall - Gait 16 i Robin Smith Hall - Gait 16 j Robert Bryson Hall - Gait 12 k Paul Stobart Building - Gait 12 l Lord Home Hall - Gait 13 m Christina Miller Halls - Gait 13
Residences East - Gait 9 n Leonard Horner Hall
Retail Outlets C Ground Floor: Shops / Bank / Hairdresser /
Bookshop
ACCOMMODATION 1 Visitors who have reserved overnight
accommodation should check in at the Main Reception.
VISITOR CAR PARKING
All visitors must use Visitors Car Park A or B on entering the campus. Car Park C is for visitors to Edinburgh Conference Centre.
Accessible parking - blue badge holders only. Additional accessible parking spaces are available throughout the campus, disabled visitors should make arrangements in advance to ensure an appropriately allocated parking space is made available.
BusStop
CarPark
PrimaryPaths
AccessibleCar Park
BUILDINGS
1 University Main Reception / Edinburgh Conference Centre Recruitment and Admissions Service
2 Centre for Sport and Exercise - Gait 10 3 Sports Academy - Gait 10 4 Edinburgh Business School - Gait 11 5 Cameron Smail Library - Gait 12
Archives, Records Management and Museum Service / Mary Burton Centre / Gibson Craig Wing
6 Henry Prais Building - Gait 12 7 Esmée Fairbairn Building - Gait 12 8 Mary Burton Building - Gait 11 9 Lord Balerno Building
Academic Registry / Finance Office / People and Organisational Development
10 Hugh Nisbet Building Student Service Centre / Student Support and Accommodation / Catering / Shops
11 Scott Russell Building - Gait 3 Careers Advisory Service / Corporate Communications / Development and Alumni / Research and Enterprise Services / SCHOLAR
12 James Nasmyth Building - Gait 3 13 William Arrol Building - Gait 4 14 Edwin Chadwick Building - Gait 4 15 John Coulson Building - Gait 3 16 Allen McTernan Building - Gait 2
Information Technology
17 David Brewster Building - Gait 2 18 Postgraduate Centre - Gait 2
Academic Enhancement Unit
19 William Perkin Building - Gait 2 20 John Muir Building - Gait 1 21 Earl Mountbatten Building - Gait 2 22 Colin Maclaurin Building - Gait 1
Institute of Petroleum Engineering - Gait 8
26 Enterprise Building 27 Centre for Flow Assurance 28 Tom Patten Building
29 Energy Academy 30 Shell Centre for Exploration Geoscience 31 Jim Brown Building 32 Conoco Building
Boundary Road North
Gait 3
Gait 4
Gait 2
Gait 1
Gait 5
Gait 7
Gait 6
Gait 8
Gait 10
Nursery
Chaplaincy
Library
Lord Balerno
James Watt Centre
Leonard Horner
Hall
Caddon Yarrow
Ettrick
Student Union
Lord Home Hall
Christina Miller Halls
Robin Smith Hall
George Burnett Hall
Lord Thomson Hall
Medical Centre
Edinburgh Business School
Centre for Sport and Exercise
Robert BrysonHall
The Avenue Campus Entrance
Boundary Road East
Cameron Sm
ail Road
Gait 11
Gait 9
Main Reception
Hugh Nisbet
Building
Gait 12
Gait 14
Gait 13
Gait 15
Gait 16
Car Park A
LyellCentre
NPCS
Car Park M Car Park N Car Park P
Car Park
Q
Car Park R
Car Park
S
Car Park B
Car Park
K
Car Park L
Car Park J
Car Park H
CAR PARKING MAP Our car parking map shows the location of our car parks as well as parking areas for disabled drivers, bus stops, academic and central service buildings and cycle facilities.
ALTERNATIVE METHODS OF TRAVEL The University encourages sta�, students and visitors to use alternative methods of travel to our campus. For more information visit www.hw.ac.uk/directions-edinburgh
K, L, M, N, P, Q, R, S Parking permit required
A, B, J, H Parking permit not required
Edinburgh Campus Car Parking Map
02032015
Delegate Accommodation
Food Halls and Cash Machines
College Lounge and Bar (�rst �oor)
Bus Stop for Edinburgh Coach Pick-up
for Conference Dinner
8 9
All presenters please ensure that you bring your presentation (which can be in pdf or PowerPoint) to the conference on a memory stick or CD-Rom. James Watt Centre 2 will be operating Windows 7 and/or 10, have all standard MS Office programmes plus items such as Quicktime, Adobe & Prezi. If there is a specific programme that a speaker needs please let Amanda Boaler know at [email protected]
There is no support for Macs. Should speakers wish to use their own Mac this is possible however they will need to supply all relevant adaptors.
On the day of your presentation, please report to the support staff in the lecture theatre at 08.00 prior to the first session of the day – or during the break, 15 minutes before your session starts. Please also report to the session chair before your session starts. If you intend to use animations, please ensure you bring the movie files with you as well. Alternatively you may wish to send your presentation prior to the conference. Please email to [email protected] to arrive by Monday 24th August 2015.
You may wish to use your own laptop – if this is the case you are still required to attend in advance to check that the presentation will work. Please be in the room of your presentation about 5 minutes before the session starts to introduce yourself to the session chairman.
With the exception of the keynote and invited presentations, the time slot for each paper is a maximum of 20 minutes. You should therefore aim to speak for 15 minutes, leaving the remaining 5 minutes available for questions.
Instructions for PresentersExhibition
The exhibition will take place on Wednesday 2nd September 2015 and is open from 10:00 to 16:30.
Delegates are free to visit the exhibition at any time the exhibition is open. Refreshments and lunch will be served to conference delegates in the exhibition hall on the day of the exhibition.
Exhibitors will give a short 1 minute pitch style presentation.
Entrance
Catering
Foyer
Plenary Lecture Theatre
Gibson Room(s)
Craig Room(s)Loading Bay
Stage
1
1
8
7
234 5 6
9
10
11
12 13
14
15
16
17
1 BSSM
2 NAC Imaging
3 Techni Measure
4 Vision Research
5 Meggit
6 Photo Sonics
7 Pulstec
8 Shimadzu
9 Correlated Solutions
10 Instron
11 Vishay Measurements UK
12 Lampda/Polytec
13 GOM
14 Thermal Vision Research/Flir
15 LaVision
16 Smartfibres
17 HBM
1110
1 day per week working on the application of polyurethane geocomposites to railway track stabilisation and reinforcement. This patented technology was spun-out from Heriot-Watt University and is now widely used across the UK railways and increasingly internationally. He has won multiple awards for his developed technologies, including the Highly Commended Award at the 2005 National Rail Awards, in the Innovation of the Year category. He has also been a previous winner of the ICE Webb Prize (2008) and the UK Young Engineers Award (2001) amongst others. He has acted as Principal Investigator on many research grants, most recently on EPSRC funded research on high-speed train track interactions at critical track velocities.
Thursday 3rd September - Plenary lecture theatre
Prof John MottersheadUniversity of Liverpool, UK
“Image analysis of full-field vibration and strain data”
John Mottershead has BSc and PhD degrees in Mechanical Engineering and was awarded the DEng degree by the University of Liverpool, where he is the Alexander Elder Professor in Applied Mechanics. His research interests include FE model updating, image processing of full-field vibration and strain data, active vibration control and servoaeroelasticity. He has published over 300 papers in international journals and conference proceeding and his industrial collaborations include, from the motor industry BMW, Fiat, Ford and Peugot-Citroen, and from the aerospace industries AgustaWestland Helicopters, Airbus UK and Rolls-Royce. He is presently Editor-in-Chief of Mechanical Systems and Signal Processing.
The BSSM Measurements Lecture
At each of its annual conferences BSSM invites a leading UK-based researcher to give the ‘Measurements Lecture’.
The BSSM Measurements LectureWednesday 2nd September - Plenary lecture theatre
Prof Fabrice PierronUniversity of Southampton, UK
“New opportunities in high strain rate testing based on full-field measurement”
Abstract:
The fast development and diffusion of full-field deformation measurement techniques such as digital image correlation has opened new prospects in the identification of the mechanical behaviour of materials. The very rich experimental information enables to perform complex tests activating more of the material parameters to be identified. Professor Fabrice Pierron has been active in this research area for nearly 20 years. In particular, an original identification method dedicated to full-field measurements has been at the centre of the developments in his group. This technique is called the Virtual Fields Method (VFM, http://www.springer.com/gp/book/9781461418238).
Most of the work to date has however been targeted at quasi-static situations where standard CCD cameras could be used. This is now being transferred to the community through a dedicated software platform (www.matchidmbc.com).
The availability of high performance ultra-high speed cameras makes it possible now to record images at frame rates up to 5 MHz while keeping significant spatial resolution. This opens the way for new test methodologies at high rates where the acceleration field can be measured together with the strain field. The presentation will provide a brief description of the VFM as applied to dynamic material identification. In particular, the idea of using acceleration information as an image-embedded load cell will be developed and illustrated through several examples in vibration and impact loading. The presentation will be concluded by a short review of near future opportunities in this area of research.
We have invited three internationally leading researchers to start proceedings on three of the days of the conference. Their work represents the diverse range of topics covered by experimental mechanics.
Plenary Lectures
Tuesday 1st September - Plenary lecture theatre
Prof Olof LindahlUmeå University, Sweden
“Tactile resonant sensors for the measurement of human soft tissue stiffness”
Olof Lindahl got his PhD in biomedical engineering in 1993, Linköping University, Sweden. He became associate professor 1996 and professor 1999 in biomedical engineering at Umeå University, Sweden. He is today managing the biomedical R&D department at the University hospital of Northern Sweden. He is a founder of several companies and abiomedical engineering research centre, CMTF, where he is director. Professor Lindahl was awarded the Erna Ebeling price 2008 and is a member of several professional societies like IFMBE and IEEE. His research focus on biomedical sensors for detection of prostate cancer. He has produced more than 150 scientific publications, patents and book chapters in the area of biomedical engineering and business development.
Wednesday 2nd September - Plenary lecture theatre
Prof Peter WoodwardHeriot-Watt University, UK
“The effects of shear strain on the determination of the track critical velocity for high-speed trains”
Professor Peter Woodward has a PhD in the field of numerical geotechnics from the University of Manchester. During his PhD he worked for WS Atkins in the field of earthquake engineering, analysis and design. He was appointed to the post of Lecturer in Geotechnical Engineering in 1994 at Heriot-Watt University and to the post of Reader in Railways and Geotechnical Engineering in 2007. In 2010 he was promoted to Professor of Railway Geotechnical Engineering Since 2001 he has been seconded to industry for
Plenary Speakers
Paper/s can be found at www.bssm.org/2015papers
Dr. Fabrice Pierron is currently Professor at the University of Southampton, UK. He graduated from ENSEM in Nancy, France, in 1989, and received his PhD from Lyon University, France, in 1994. He has held an Assistant Professor post at the Ecole des Mines de Saint-Etienne from 1994 to 1999, and was a Professor at Arts et Métiers ParisTech (Châlons-en-Champagne, France) before moving to his current position in Southampton in May 2012.
Prof. Pierron is an expert in mechanical testing of composite materials but has been focusing his research on the use of novel identification strategies based on full-field measurements and heterogeneous tests for the last fifteen years. In particular, he has been instrumental in the development of the Virtual Fields Method. Prof. Pierron has published around 100 ISI referenced journal papers and co-authored about 200 conference communications. He is currently Editor-in-Chief of Strain (Wiley) and previously Associate Editor of Experimental Mechanics (Springer). He holds a Wolfson Research Merit Award from the Royal Society, an Established Career Fellowship from EPSRC and is a Fellow of the Society for Experimental Mechanics. He is the co-founder of the MatchID company which aims at marketing integrated DIC/VFM software tools.
12 13
The BSSM Young Stress Analyst (YSA) competition is an annual competition that is intended to encourage and reward young practitioners in the field of experimental mechanics.
The competition is generously sponsored by Airbus
YSA Finalists
Determination of micro-residual stress distribution in multi phase ceramic composites using Raman spectroscopy
Matthew DeVries, University of Florida (USA) A new white light imaging approach for intralaminar fatigue characterisation of GFRP
Jens Glud, Aalborg University (Denmark) Three dimensional in situ quantification of localised non-linear deformations within heterogeneous materials
Matthew S. L. Jordon, University of Oxford (UK) Measurement of highly non-uniform residual stress fields with reduced plastic error
Ho Kyeom Kim, University of Bristol (UK)
BSSM Young Stress Analyst Competition
Each year BSSM sponsor a prize for the best paper in Strain supported by the generosity of Fylde Electronics. A shortlist of papers is created by the Editor and Associate Editors based on referees comments on the papers which is then passed onto a panel of experts selected from the Editorial Board.
BSSM Fylde Electronics Best Paper in Strain 2014
2015 Fylde Best Paper in Strain
Full-field measurements on low-strained geomaterials using environmental scanning electron microscopy and digital image correlation: improved imaging conditions
L. L. Wang, M. Bornert, E. Héripré, S. Chanchole and A. Tanguy
Volume 50, Issue 5, pages 370-380, October 2014
Winners will be presented with an award during the conference dinner.
14 15
Tuesday 1st September 2015
Welcome Reception James Watt Centre 2, Foyer
Starts 18.00
Ends 19.30
Wednesday 2nd September
Gala Conference BanquetThe Playfair Library, Old College, South Bridge,EH8 9YL, Edinburgh.
Coaches depart outside main reception 19.00 (see page 7)
Conference reception 19.30
Conference dinner 20.30
Coaches depart 23.30
Social ProgrammeScientific Commitee
Dr Taiji Adachi, Kyoto University, Japan
Dr Antonio Baldi, University of Cagliari, Italy
Prof Janice Barton, University of Southampton, UK
Prof David Bucknall, Georgia Tech, USA
Dr Richard Burguete, Airbus, UK
Prof Gary Couples, Heriot-Watt University, UK
Prof Joris Dirckx, University of Antwerp, Belgium
Prof Bruce Drinkwater, University of Bristol, UK
Prof Josef Eberhardsteiner, Vienna University of Technology, Austria
Prof Stephen Eichhorn, University of Exeter, UK
Prof Spilios Fassois, Patras University, Greece
Dr Carol Featherston, Cardiff University, UK
Prof Antolino Gallego, University of Granada, Spain
Prof James Gimzewski, UCLA, USA
Dr Inna Gitman, University of Sheffield, UK
Prof Michel Grédiac, Clermont-Ferrand University, France
Dr Salih Gungor, Open University, UK
Dr Jack Hale, University of Newcastle, UK
Dr Stephen Hall, Lund University, Sweden
Prof Joachim Hammer, FH Regensburg, Germany
Dr Johan Hoefnagels, TU Eindhoven, The Netherlands
Prof Karen Holford, Cardiff University, UK
Dr Dave Hollis, LaVision, UK
Prof Jon Huntley, Loughborough University, UK
Prof Steve James, Cranfield University, UK
Dr Arthur Jones, University of Nottingham, UK
Prof Patrick Keogh, University of Bath, UK
Dr Vasileios Koutsos, University of Edinburgh, UK
Dr Leslie Lamberson, Drexel University, USA
Dr Pascal Lava, University of Leuven, Belgium
Prof Jean-Benoît Le Cam, University of Rennes, France
Dr Jerry Lord, NPL, UK
Dr Bill Macpherson, Heriot-Watt University, UK
Prof James Marrow, University of Oxford, UK
Dr Bob Mines, University of Liverpool, UK
Prof Wolfgang Müller, Berlin Technical University, Germany
Prof Wolfgang, Osten, University of Stuttgart, Germany
Prof Huajiang Ouyang, University of Liverpool, UK
Prof Eann Patterson, University of Liverpool, UK
Dr Dominique Pioletti, ETH, Switzerland
Dr Bill Proud, Imperial College, UK
Dr Rhys Pullin, Cardiff University, UK
Prof Pramod Rastogi, EPFL, Switzerland
Prof Daniel Rittel, Technion, Israël
Dr Marco Rossi, University Polytechnic from the Marche, Italy
Dr Anish Roy, University of Loughborough, UK
Dr Pablo Ruiz, Loughborough University, UK
Dr Hazel Screen, Queen Mary University of London, UK
Prof Chris Smith, University of Exeter, UK
Dr David Stifter, Johannes Kepler University, Austria
Prof Andy Tan, Queensland University of Technology, Australia
Dr Rachel Tomlinson, University of Sheffield, UK
Dr Irina Trendafilova, University of Strathclyde, UK
Prof Chris Truman, University of Bristol, UK
Prof Gioacchino Viggiani, Laboratoire 3SR, France
Prof Keith Worden, University of Sheffield, UK
Dr José Xavier, University of Porto, Portugal
Prof Ramón Zaera, Carlos III University of Madrid, Spain
16 17
Accommodation
Tuesday 1st September 9.00 am to 1.00 pm Registration will take place from Tuesday 1st September for all delegates attending the short courses in the James Watt Centre 2 in the Foyer
Refreshments will be available in Foyer of the James Watt Centre 2 from 10.30 to 11.30 and a packed lunch from 1pm for short course delegates only.
The Conference starts at 1.30 pm
Short Course Details
An introduction to Acoustic Emission (AE)monitoring
INSTRUCTOR
Tim Bradshaw – Mistras Group Ltd
Tuesday September 1st 2015
9:00 am to 1:00 pm
COURSE DESCRIPTION
Acoustic Emission is a passive monitoring technique used in industry and academia to monitor, in real time, the degradation of materials. The application of AE has developed over the last 40 years from monitoring lab based applications to industrial field testing. Successful application of the technique is through a knowledge of the mechanism being monitored, the environment the technology is to be applied and the data processing.
The goal of this workshop is as follows:
• Discuss the nature of Acoustic Emission and how it is generated.
• Evaluation of AE acquisition hardware and data acquisition methodology.
• Data analysis approaches. • A review of real life Applications for Acoustic Emission.
Who should attend
Any members of academia and industry who are interested in a background in the technology and its successful application. No specific pre-knowledge is required and the monitoring technique is introduced step by step.
COURSE SHEDULE
09.00 Slot 1:
• What is Acoustic Emission • AE sources and sensitivity • The measurement chain • Data acquisition and processing • Location of sources.
10.30 Coffee Break
11.00 Slot 2:
• Implementation - Successful application of AE. • Lab or field test set up approach. • Data presentation. • Practical demonstration of AE. • Presentation of example applications.
13.00 End of Session
COURSE INSTRUCTOR
The workshop is led by Tim Bradshaw – Mistras Group Ltd
Tim has been working with Mistras group (formally Physical Acoustics) for 12 years. In 2000 Tim started his MPhil Research into AE on concrete and composite structures at Cardiff University. Following graduation in 2002 Tim joined Mistras as an Applications Engineer providing AE and research support and development services to academia and industry. Tim’s experience covers the application of AE in a wide range of industries and applications and he is now managing the Cambridge Mistras office. (http://www.mistrasgroup.co.uk).
Digital Image Correlation Practical considerations & guidelines towards consistent analysis and reporting
INSTRUCTOR:
Prof. Pascal Lava, University of Leuven, Belgium
COURSE DESCRIPTION
Digital Image Correlation (DIC) is gradually becoming a standard tool in experimental mechanics, for both industry and academia. Despite the fact that the measurement system is often sold with the argument of being easy in use and setup, a poor understanding of issues arising in the whole measurement chain (imaging, noise, correlation algorithm, smoothing, …) can result in poor or misinterpreted results.
The principal goal of this workshop is not to provide a detailed theoretical study on these. However, practical guidelines towards a consistent analysis of results and reporting in DIC will be delivered to the participants, helping them to understand more clearly the benefits and limitations of the measurement technique. All aspects will be live demonstrated and introduced step by step to guarantee an interactive course.
Who should attend
Practitioners of DIC at post graduate level working in both academia and industry. No specific preknowledge is required and the measurement technique is introduced step by step. Accordingly, also people that have no experience with DIC
Pre-conference Short Courses
For delegates who have booked campus accommodation check in is from Monday 31st August. Guests must check in at Main Reception. Accommodation will be available from 15.00 onwards. If any residents plan to arrive outside normal opening hours of 07.30 hrs to 22.00 hrs please contact [email protected] so arrangements can be made for you to access your room. Check-out time is by 10.00. There will be a £20.00 charge for any bedroom key not returned to reception after 10.00 and by 11.00 on the morning of departure. Where the situation arises that a guest has not checked out by noon, a full accommodation charge will apply.
Each bedroom is equipped with single bed, bed linen, towels, tea/coffee and free access to internet. No hairdryers, toiletries , TV or alarm clocks are provided.
Should delegates require assistance please contact reception on 0131 451 3501 between the hours of 0730-2200 hrs and Security Control on 0131 451 3500 out of these hours.
There are no disabled accessible rooms available during the dates of the conference, however, there are lifts in the accommodation buildings.
There is no room service or concierge service. There is a launderette available and guests can purchase a card for £2.00 inside the launderette then go on-line to http://www.circuit.co.uk/card-top-up-unauth/ to add money to it.
For anyone who does not wish to stay on campus there is a list of hotels close to campus which can be found at www.bssm.org/conf2015
Catering outlets open on campus
Central – offer a variety of hot meals 08.00-19.00 hrs Breakfast available between 08.00-10.00 hrs Café Brio – offers tea/coffee/soft drinks/limited alcoholic drinks; sandwiches, pastries, cake, soup, baked potatoes09.00 hrs to 19.00 hrs
The Piece – offers Starbucks coffee, soft drinks, pizza, hot sandwiches 08.00 hrs to 19.00 hrs
College Lounge Dinner & Bar
Tuesday 1st September Dinner: 19.30 -20.30 hrs. Bar open until 22.00
A cash sale dinner option will be available for delegates after the drinks reception. The price is £6.50 per person for a main course (meat or vegetarian option) with dessert available at an additional cost.
A bottle only bar is also available in the College Lounge until 22.00 hrs.
18 19
Dr Rachael Tighe achieved her PhD focussing on thermographic non-destructive evaluation (NDE) approaches in 2014. She currently holds an EPSRC Doctoral Prize Fellowship at the University of Southampton focussing on the development and integration of complimentary NDE techniques and a part time role on a Knowledge Transfer Secondment working towards a robust, low cost inspection approach for thick composites. Rachael is a committee member for the British Society for Strain Measurement and is Secretary for the Thermomechanics and Infrared Imaging division of the Society of Experimental Mechanics
Pre-conference Short Courses Pre-conference Short Courses
Thermography in NDE applications
Here the physics of the main NDE techniques such as pulse, pulse phase thermography are described. The application of these techniques to defect detection is covered in detail.
Thermoelastic stress analysis
Although the thermoelastic stress analysis (TSA) technique has been part of the experimental mechanics tool box for many years it is still under-utilized in industry. The aim of this section will be to describe the underlying theory and identify the limitations of the technique before showing how it can be successfully applied to a range of materials and structures. Some new emerging work on TSA for strain based NDE and low cost TSA will be presented.
High speed thermography
How can we make thermal imaging systems faster? The underlying limitations of photo-detectors and Bolometers will be discussed. A detailed description of some recent work to measure temperature evolutions in high strain rate events will be provided on how a standard camera can be customised to take measurements at 15 kHz.
Course notes and materials
A set of course notes can be downloaded from the BSSM web site prior to the short course.
Course instructors
Prof Janice Dulieu-Barton has worked in experimental mechanics and non-destructive testing since 1989 and has published more than 250 papers on these topics. She received a BSc in Mechanical Engineering in 1988 from the University of Salford and a PhD from the University of Manchester in 1993.
Currently she is a Professor of Experimental Mechanics in the Faculty of Engineering and the Environment at the University of Southampton. Professor Barton’s primary research interest is in imaging. Focus areas include: high speed imaging particularly thermography, residual stresses, damage analysis of composite/sandwich/ textile materials, crack-tip stress studies and small scale full-field experimental stress analysis. Professor Dulieu-Barton is a Fellow of the UK Institute of Physics and a Chartered Mechanical Engineer.
She was the Editor-in-Chief of the international journal for experimental mechanics, Strain, and is now its Associate Editor. She has numerous roles with the Institute of Physics (IOP) including chairman of the Applied Physics and Technology Division. She is also past chairman of the British Society for Strain Measurement (BSSM). She was chairman of the 16th International Conference on Experimental Mechanics.
Infra-red thermography in experimental mechanics: using temperature measurement to evaluate stresses, strains and damage evolutions Instructors: Professor Janice Dulieu-Barton, Dr Rachael Tighe, University of Southampton, UK.
Course description
The purpose of the short course is to introduce the range of applications of infra-red thermography in experimental mechanics. Thermography is a full field, non-contact non-destructive measurement technique. It has been used for many years a qualitative tool for non-destructive evaluations of structures where ‘hot-spots’ are used to infer damage sites. The short course shows how thermography can be used to obtain quantitative information about the extent of damage, its effect on the temperature field and how to obtain accurate measurements. A detailed introduction to thermography is provided as well as introductions to techniques such as pulse phase thermography and thermoelastic stress analysis. Who should attend
Engineers and researchers who have an interest in the use of full-field strain measurements to extract information regarding the fatigue and damage mechanisms in materials. The basics will be taught from the beginning so no prior knowledge of infrared thermography is required. The focus is on practical application and industrial relevance. The course will not require any specific mathematical background, although an understanding of basic solid mechanics is required.
Course schedule
09.00 Welcome and brief introductions09.15 Physics of thermography09.45 Thermography in NDE applications10.30 Refreshments12.15 Thermoelastic stress analysis – theory, assumptions and applications12.15 High speed thermography12.45 Closing remarks Physics of thermography
This starts with the derivation of Planck’s law and demonstrates how infra-red imaging systems work. It covers the mode of operation of both Bolometers and photo-detectors. The aim is to highlight the key important points for consideration when using infra-red detectors in experimental mechanics applications.
measurements can learn about what this technique can mean for their application.
DIC09.00 Slot 1: DIC
• Basic principles of DIC: Image matching. Why is a speckle pattern needed? What is subset size and step size (what are their limitations)? Shape functions and correlation criteria
• From displacements to strains
• Resolution/spatial resolution: what is the meaning and relationship of these concepts and what is their role in an actual experiment
Coffee Break
11.15 Slot 2: Practical guidelines • Field of view, depth of field, aperture, exposure time: how to setup a DIC experiment
• Practical considerations for speckling and lighting
• Artificial strain fields due to out-of-plane motion
• Integrated DIC/VFM demo: seamless identification of mechanical properties
13.00 End of Session
Course instructor
The workshop is led by Dr Pascal Lava from the University of Leuven, Belgium. He brings a wealth of experience in the practical application/data analysis of DIC for both local and global methodologies, and their interpretation in terms of resolution and spatial resolution.
In June 2002 Pascal Lava obtained a master degree in mathematics at Ghent University. In 2006 , he acquired a PhD in sciences - nuclear physics at Ghent University. Since January 2008, he works as an associate professor at the department Metallurgy and Materials engineering (MTM) at Leuven University. His research topics include Digital Image Correlation (DIC) and material identification via virtual fields and finite element updating. Pascal Lava is author of more than 30 peer-reviewed journal papers and the founder and main developer of the DIC platform MatchID (http://www.matchidmbc.com )
20 21
Pre-conference Short Courses Pre-conference Short Courses
The Virtual Fields Method An introduction Instructor: Professor Fabrice Pierron, University of Southampton, UK.
Course description
Full-field measurement techniques are gradually becoming routine procedures in industrial and academic mechanical testing labs thanks to the wide range of commercially available systems. Having access to the spatial distribution of strains at the surface of the material (or sometimes in the bulk, as in Digital Volume Correlation from X-ray tomography or OCT reconstructed volumes) enables the use of more complex test configurations to identify the mechanical behavior of materials, with the potential of tackling difficult problems like heterogeneous materials (welds, locally damaged composites, multi-materials, functionally graded materials etc…) or complex constitutive equations (viscoplasticity at high strain rate, hyperelasticity, phase changes as in SMAs etc…). However, in this case, the data processing is not straightforward and inverse problem resolution is usually required.
The present course will introduce the participants to a tool specifically developed to solve the above problem, the so-called Virtual Fields Method (VFM). This method is an alternative to Finite Element Model Updating over which it has a number of specific advantages, among which much shorter computation times. The idea of the course is to start from scratch on the subject and gradually lead the participants to an understanding of the basic concept of the method through simple examples in linear elasticity. The VFM will then be explored in more depth to demonstrate how it can be applied to non-linear constitutive laws, heterogeneous materials etc. The important issue of virtual fields selection will also be briefly addressed. Finally, the course will be concluded by examples of application of the VFM to many different materials and situations.
Who should attend
Engineers and researchers who have an interest in the use of full-field strain measurements to extract mechanical properties of materials. Although inverse problems are usually considered to be mathematically demanding, this course will focus on rather simple concepts that will not require any specific mathematical background. Basic solid mechanics training (graduate level) is enough to benefit from the course.
Participants can submit their own application/problem to the instructor for advice or even their own measurements for processing with the VFM.
Course schedule
09.00 Introduction
09.15 The Principle of Virtual Work
09.45 The Virtual Fields Method in elasticity
10.30 Coffee break
11.00 Complements on the VFM (non-linear VFM, dynamics etc.)
12.00 Examples of application
13.00 End of the course
Introduction
The determination of parameters driving the constitutive mechanical behavior of materials from experimental tests is an inverse problem. This section presents a brief overview of the problem to be solved and a number of different approaches used to solve it, with their advantages and shortcomings. The benefits of having access to full-field measurements to address this problem will be underlined.
The Principle of Virtual Work
One of the difficulties in understanding the VFM is the so-called Principle of Virtual Work on which the technique relies. This part of the course will recall the basics of this principle and detail how it can be used to derive integral equilibrium equations. The simple case of a cantilever beam will serve as an example.
The Virtual Fields Method in elasticity
The Virtual Fields Method (VFM) will be described in detail in the case of linear elasticity. This simple situation is chosen for its didactical value. Simple examples in linear elasticity will demonstrate the basic principle of the VFM as well as some of its important features (virtual fields’ selection, virtual boundary conditions etc.).
Complements on the VFM
After having acquired a basic understanding of how the VFM works, this session will be dedicated to exploring the method in more depth. It will first be shown how the VFM can be adapted to non-linear constitutive models and how it can deal with heterogeneous materials. The important issue of the selection of virtual fields will also be addressed. Finally, it will be shown how the VFM can be applied in dynamics (vibration, high strain rate testing…).
Practical examples of application of the VFM
The course will be concluded by an overview of experimental application of the VFM to composites (elasticity, damage), metals (including welds), wood and novel high strain rate testing applications.
Course handouts
The participants will be given a CD containing the slides used for the presentations, a set of scientific papers relevant to the subject as well as the CAMFIT software. There will also be an option for the participants to buy the VFM book at a reduced rate.
http://www.springer.com/materials/mechanics/book/978-1-4614-1823-8
Course Instructor
Dr. Fabrice Pierron is currently Professor at the University of Southampton, UK. He graduated from ENSEM in Nancy, France, in 1989, and received his PhD from Lyon University, France, in 1994. He has held an Assistant Professor post at the Ecole des Mines de Saint-Etienne from 1994 to 1999, and was a Professor at Arts et Métiers ParisTech (Châlons-en-Champagne, France) before moving to his current position in Southampton in May 2012.
Prof. Pierron is an expert in mechanical testing of composite materials but has been focusing his research on the use of novel identification strategies based on full-field measurements and heterogeneous tests for the last fifteen years. In particular, he has been instrumental in the development of the Virtual Fields Method. Prof. Pierron has published around 100 ISI referenced journal papers and co-authored about 200 conference communications. He is currently Editor-in-Chief of Strain (Wiley) and previously Associate Editor of Experimental Mechanics (Springer). He holds a Wolfson Research Merit Award from the Royal Society, an Established Career Fellowship from EPSRC and is a Fellow of the Society for Experimental Mechanics. He is the co-founder of the MatchID company which aims at marketing integrated DIC/VFM software tools.
22 23
Local Information Programme
Doctors - http://www.riccartongeneralpractice.co.uk/studenthealth/
Chemist – Lloyds Pharmacy, 162 Lanark Rd, West Currie, Lothian EH14 5NY Tel: 0131 449 3417 or Boots Edinburgh. The Gyle Centre, Gyle Avenue, Edinburgh, Mid Lothian, EH12 9JR Tel: 01313171288.
Taxi – there is a phone on the Main Reception desk which connects direct to Central Taxis – 0131 229 2468.
Cash machine – RBS Bank and cash machine located on the lower floor of Hugh Nisbet Building. The bank is open Monday, Tuesday, Thursday and Friday from 1200-1600 hrs.
Fire Instructions
The James Watt Centre is equipped with Fire Protection Equipment to a high standard that is maintained and inspected in line with current legislation and Health and Safety requirements, this includes an extensive automatic Smoke Detection system.
In keeping with recent changes in the legislation the James Watt Centre is a designated No Smoking venue and anyone found in contravention of this may be requested to leave the premises, your cooperation and assistance in this matter is appreciated.
In the event of a fire: ANY PERSON DISCOVERING A FIRE SHOULD RAISE THE ALARM BY OPERATING THE NEAREST FIRE ALARM CALL POINT / BREAK GLASS. The fire alarm sounds as a two-tone electronic siren (similar to a yodel), there is no first stage.
In the event of the alarm sounding, Conference and Event Organisers should direct their delegates / guests to evacuate the premises by the NEAREST fire exit and assemble either in the Piazza to the west (front) of the building, or in the car park to the east (rear) of the building. Fire exits are clearly marked throughout the centre and there are doors all round the main hall and in the lounge area. Delegates / Guests should be discouraged from stopping to collect personal belonging and they MUST NOT re-enter the building until
authorised by the Fire Authorities or a member of the University Security Staff. The Duty Security Supervisor and the Control Desk (extn 3500) must be advised in advance if any individuals might require extra assistance in the event of an evacuation.
Conf
eren
ce P
rogr
amm
e
Tues
day
1st S
epte
mbe
r 08
:00
Regi
stra
tion
– Ja
mes
Wat
t Cen
tre
2 Fo
yer (
Ope
n al
l day
)
09
:00
Shor
t Cou
rses
– G
ibso
n an
d Cr
aig
Room
s
Acou
stic
Em
issi
on
Tim
Bra
dsha
w, M
istra
s Gro
up, U
K
Digi
tal I
mag
e Co
rrel
atio
n Dr
Pas
cal L
ava,
KU
Leu
ven,
Bel
gium
Infr
a-re
d Th
erm
ogra
phy
Prof
Jani
ce B
arto
n, U
nive
rsity
of S
outh
ampt
on, U
K
Virt
ual F
ield
s Met
hod
Prof
Fab
rice
Pier
ron,
Uni
vers
ity o
f Sou
tham
pton
, UK
10:3
0 to
11
:30
Refr
eshm
ents
(sho
rt c
ours
e on
ly)
13:0
0 Pa
cked
lunc
h (s
hort
cou
rse
only
) 13
:30
Intr
oduc
tion
& W
elco
me
– Pl
enar
y Le
ctur
e Th
eatr
e
13
:45
Plen
ary
Lect
ure
1 - P
lena
ry L
ectu
re T
heat
re
Tact
ile re
sona
nt se
nsor
s for
the
mea
sure
men
t of h
uman
soft
tiss
ue st
iffne
ss
Prof
Olo
f Lin
dahl
, Um
eå U
nive
rsity
, Sw
eden
Plen
ary
Lect
ure
Thea
tre
Gibs
on R
oom
Cr
aig
Room
Sess
ion
1.1a
M
echa
nics
of f
atig
ue
Sess
ion
1.1b
O
ptic
al m
easu
rem
ent t
echn
ique
s 1
Sess
ion
1.1c
Bi
omec
hani
cal m
easu
rem
ents
1
14:3
0 Pr
olon
gatio
n of
fatig
ue li
fe o
f TiN
i sha
pe m
emor
y al
loy
by u
ltras
onic
shot
pee
ning
K
Take
da, R
Mat
sui,
H To
bush
i, Ai
chi I
nstit
ute
of
Tech
nolo
gy, K
Hat
tori,
Yoy
o Se
iko
Co L
td, J
apan
Sim
ulta
neou
s mul
tidim
ensio
nal d
efor
mat
ion
mea
sure
men
ts in
hol
ogra
phic
inte
rfer
omet
ry u
sing
phas
e sh
iftin
g P
Rast
ogi,
EPFL
, Sw
itzer
land
Stud
y of
the
mec
hani
cal p
rope
rtie
s of t
he a
vian
m
iddl
e ea
r by
optic
al in
terf
erom
etry
and
fini
te
elem
ent m
odel
ling
P M
uysh
ondt
, D D
e Gr
eef,
J Soo
ns, J
J J D
irckx
, U
nive
rsity
of A
ntw
erp,
Bel
gium
24 25
Programme Programme14
:50
Ther
mal
mec
hani
cal f
atig
ue o
f nic
kel b
ase
supe
rallo
ys –
mod
ellin
g ve
rsus
exp
erim
ent
J Ham
mer
, OTH
Reg
ensb
urg,
F W
ilhel
m, I
ABG
GmbH
, U G
latz
el, U
nive
rsity
of B
ayre
uth,
E E
Af
feld
t, U
MTU
Aer
o En
gine
s AG,
Ger
man
y
Mul
tiple
of l
ong-
gaug
e le
ngth
fibr
e op
tic
dyna
mic
stra
in se
nsor
s usin
g ra
nge-
reso
lved
in
terf
erom
etry
T
Kiss
inge
r, R
Corr
eia,
T O
H C
harr
ett,
S W
Jam
es, R
P
Tatu
m, C
ranf
ield
Uni
vers
ity, U
K
Visc
oela
stic
mod
ellin
g of
rect
um ti
ssue
dur
ing
shor
t-te
rm re
laxa
tion
Z Eh
tesh
ami,
A Al
azm
ani,
P Cu
lmer
, A N
evill
e,
Uni
vers
ity o
f Lee
ds, U
K
15:1
0 De
sign,
inst
rum
enta
tion
and
cont
rol o
f a
forc
e/di
spla
cem
ent c
ontr
olle
d ro
tatin
g be
ndin
g fa
tigue
test
rig
B Va
n Ho
orew
eder
, R B
oone
n, D
Moe
ns, P
Sas
, KU
Le
uven
, Bel
gium
In-s
itu st
rain
mea
sure
men
ts w
ith fi
bre
Brag
g gr
atin
gs e
mbe
dded
into
stai
nles
s ste
el b
y se
lect
ive
lase
r mel
ting
D Ha
verm
ann,
J M
athe
w, W
N M
acPh
erso
n, R
J M
aier
, D P
Han
d, H
erio
t-W
att U
nive
rsity
, UK
Com
parin
g th
e eF
inge
r and
the
finge
r to
mea
sure
th
e st
iffne
ss o
f the
ex
vivo
pro
stat
e gl
and
S J H
amm
er, P
Sca
nlan
, W S
hu, R
L R
eube
n, H
erio
t-W
att U
nive
rsity
, D W
Goo
d, G
D S
tew
art,
S A
McN
eill,
Uni
vers
ity o
f Edi
nbur
gh, S
Phi
pps,
Wes
tern
Ge
nera
l Hos
pita
l, Ed
inbu
rgh,
UK
15:3
0 Ex
perim
enta
l and
num
eric
al s
tudi
es o
f bol
ted
join
ts
subj
ecte
d to
axi
al e
xcita
tion
J H L
iu, J
B Z
hou,
Z T
Yu,
J F
Peng
, L J
Ma,
M H
Zhu
, So
uthw
est J
iaot
ong
Uni
vers
ity, C
hina
, H J
Ouy
ang,
U
nive
rsity
of L
iver
pool
, UK,
C Q
Zha
ng, Q
ingd
ao
Sifa
ng L
ocom
otiv
e an
d Ro
lling
Sto
ck C
o, C
hina
Mea
surin
g tr
avel
ling
wav
es w
ith sp
eckl
e in
terf
erom
etry
S
Earl,
A J
Moo
re, H
erio
t-W
att U
nive
rsity
, UK
Opt
ical
Mea
sure
men
ts o
f Non
linea
rity
in th
e M
iddl
e Ea
r J P
eaco
ck, J
J J D
irckx
, Uni
vers
ity o
f Ant
wer
p,
Belg
ium
15:5
0 Re
fres
hmen
ts -
Loun
ge
Se
ssio
n 1.
2a
High
-spe
ed m
easu
rem
ents
Se
ssio
n 1.
2b
Opt
ical
mea
sure
men
t tec
hniq
ues 2
Se
ssio
n 1.
2c
Biom
echa
nica
l mea
sure
men
ts 2
16
:10
Imag
e re
gist
ratio
n fo
r qua
ntify
ing
defo
rmat
ion
in
pene
trat
ing
balli
stic
impa
cts
E Cr
amph
orn,
M J
Carr
e, Z
A T
aylo
r, , U
nive
rsity
of
Shef
field
, UK
Phot
oela
stic
mea
sure
men
t of s
ub-s
urfa
ce st
ress
es
usin
g GH
z rad
iatio
n P
Sche
mm
el, G
Die
dric
h, A
M M
oore
, Her
iot-
Wat
t U
nive
rsity
, UK
Mol
ecul
ar st
rain
in h
igh
perf
orm
ance
cel
lulo
se
fibre
s via
an
envi
ronm
enta
lly b
enig
n pr
oces
sing
rout
e N
D W
anas
ekar
a, S
J Ei
chho
rn, U
nive
rsity
of E
xete
r, S
Raha
teka
r, K
Pott
er, U
nive
rsity
of B
risto
l, T
Wel
ton,
Impe
rial C
olle
ge L
ondo
n, U
K, A
Bism
arck
, U
nive
rsity
of V
ienn
a, A
ustr
ia, H
Six
ta, A
alto
U
nive
rsity
, Fin
land
16:3
0 N
ovel
iner
tial h
eter
ogen
eous
hig
h st
rain
rate
test
fo
r non
-line
ar c
onst
itutiv
e m
odel
iden
tific
atio
n w
ith
the
virt
ual f
ield
s met
hod
S M
Dre
uilh
e, F
Pie
rron
, Uni
vers
ity o
f Sou
tham
pton
, U
K
PS- F
F-O
CT in
use
for s
truc
tura
l, bi
refr
inge
nce
and
stre
ss-s
trai
n im
agin
g B
Heise
, B B
uchr
oith
ner,
P Kh
uran
a, A
Pry
lepa
, D
Stift
er, J
ohan
nes K
eple
r Uni
vers
ity, A
ustr
ia
Expl
oitin
g el
astic
mod
ulus
of h
uman
cel
ls fo
r se
para
tion
purp
oses
M
M Z
adeh
, N W
illou
ghby
, H B
ock,
Her
iot-
Wat
t U
nive
rsity
, UK
16:5
0 Da
mag
e re
spon
se o
f sta
tiona
ry a
nd m
ovin
g ta
rget
s to
bal
listic
impa
ct
S A
Wec
kert
, A D
Res
nyan
sky,
S P
arry
, S B
ooth
, DS
TO, A
ustr
alia
Dept
h-re
solv
ed sl
ow v
eloc
ity fi
eld
mea
sure
men
t us
ing
wav
elen
gth
scan
ning
inte
rfer
omet
ry
P D
Ruiz,
Lou
ghbo
roug
h U
nive
rsity
, UK
Criti
cal f
orce
thre
shol
ds fo
r lap
aros
copi
c gr
aspi
ng a
s an
indi
cato
r of t
issue
dam
age
L Ru
ssel
l, J B
arrie
, P C
ulm
er, D
Jayn
e, A
Nev
ille,
U
nive
rsity
of L
eeds
, UK
17:1
0 M
echa
nica
l for
ces d
ue to
ligh
tnin
g st
rikes
to
airc
raft
: A p
seud
o-st
ereo
DIC
tech
niqu
e fo
r m
easu
ring
full-
field
disp
lace
men
t P
R Ev
ans,
C A
Fea
ther
ston
, M J
Eato
n, J
McC
rory
, D
Mic
hard
, Car
diff
Uni
vers
ity, U
K
Cost
-effe
ctiv
e vi
brat
ion
and
disp
lace
men
t m
easu
rem
ent u
sing
rang
e-re
solv
ed in
terf
erom
etry
T
Kiss
inge
r, T
O H
Cha
rret
t, S
W Ja
mes
, R P
Tat
um
Cran
field
Uni
vers
ity, U
K
17:3
0 Dy
nam
ic st
rain
mea
sure
men
t in
a ba
ll be
arin
g W
Che
n, R
S M
ills,
M M
arsh
all,
R S
Dwye
r-Jo
yce,
M
Mos
tafa
vi, U
nive
rsity
of S
heffi
eld,
T C
onno
lley,
C
Rein
hard
, M D
rako
poul
os, D
iam
ond
Ligh
t Sou
rce
Ltd,
D M
Col
lins,
S M
Bar
hli,
Uni
vers
ity o
f Oxf
ord,
U
K
On
the
mea
sure
men
t of d
imen
siona
l qua
lity
of
titan
ium
allo
y m
icro
latt
ice
stru
ts m
anuf
actu
red
usin
g se
lect
ive
lase
r mel
ting
R A
W M
ines
, Uni
vers
ity o
f Liv
erpo
ol, U
K, R
Has
an,
Uni
vers
iti T
ekni
kal M
alay
sia M
elak
a, M
alay
sia
18:0
0 to
19
:30
Info
rmal
Rec
eptio
n - L
oung
e
26 27
ProgrammeProgrammeW
edne
sday
2nd
Sep
tem
ber
08:3
0 Pl
enar
y Le
ctur
e 2
- Ple
nary
Lec
ture
The
atre
Th
e ef
fect
s of s
hear
stra
in o
n th
e de
term
inat
ion
of th
e tr
ack
criti
cal v
eloc
ity fo
r hig
h-sp
eed
trai
ns
Prof
Pet
er W
oodw
ard,
Her
iot-
Wat
t Uni
vers
ity, U
K 09
:10
Exhi
bito
r Int
rodu
ctio
ns
Pl
enar
y Le
ctur
e Th
eatr
e Gi
bson
Roo
m
Crai
g Ro
om
Se
ssio
n 2.
1a
DIC
tech
niqu
es a
nd a
pplic
atio
ns 1
Se
ssio
n 2.
1b
Frac
ture
of n
on-m
etal
s Se
ssio
n 2.
1c
Cree
p an
d hi
gh te
mpe
ratu
re a
pplic
atio
ns
09:3
0 Q
uant
ifica
tion
of re
solu
tion
and
spat
ial r
esol
utio
n in
loca
l and
glo
bal D
IC
P La
va, L
Witt
evro
ngel
, D D
ebru
yne,
KU
Leu
ven,
Be
lgiu
m, F
Pie
rron
, Uni
vers
ity o
f Sou
tham
pton
, UK
Frac
ture
of g
raph
ite c
ompo
nent
s usin
g br
omin
e in
terc
alat
ion
W B
odel
, P M
umm
ery,
The
Uni
vers
ity o
f M
anch
este
r, U
K
An in
ert g
as b
ased
tech
niqu
e fo
r lon
g-te
rm c
reep
st
rain
mea
sure
men
t by
digi
tal i
mag
e co
rrel
atio
n Z
Hu, J
Gao
, TW
I, U
K
09:5
0 U
sing
colo
ur c
amer
as fo
r dig
ital i
mag
e co
rrel
atio
n:
how
bad
are
they
? A
Fors
ey, O
pen
Uni
vers
ity, U
K
3D e
xper
imen
tal o
bser
vatio
n of
cra
ck in
itiat
ion
at
stre
ss c
once
ntra
tions
in n
ucle
ar g
raph
ite
M S
L Jo
rdan
, L S
auce
do M
ora,
S M
Bar
hli D
Now
ell,
T J M
arro
w, U
nive
rsity
of O
xfor
d, U
K
A 3D
-DIC
met
hod
for h
igh
tem
pera
ture
app
licat
ion
M v
an R
ooye
n, T
H B
ecke
r, St
elle
nbos
ch U
nive
rsity
, So
uth
Afric
a 10
:10
Digi
tal I
mag
e co
rrel
atio
n vi
brom
etry
I A
Jone
s, J
War
burt
on, H
Doc
x, U
nive
rsity
of
Not
tingh
am, U
K, G
Lu,
AVI
S Th
e Fi
rst A
ircra
ft
Inst
itute
, Chi
na
Mix
ed-m
ode
dyna
mic
frac
ture
of n
anol
ayer
ed
met
al c
eram
ics
L Sh
anna
han,
L L
ambe
rson
, M B
arso
um, D
rexe
l U
nive
rsity
, USA
Mon
itorin
g va
riatio
n of
loca
l str
ain
and
tem
pera
ture
in fi
ber r
einf
orce
d co
mpo
sites
und
er
high
stra
in fa
tigue
usin
g em
bedd
ed F
BG se
nsor
s E.
S. K
ocam
an, C
Yilm
az, A
Den
iz, H
Tür
kmen
, M
Yild
iz, S
aban
ci U
nive
rsity
, E A
kay,
Ista
nbul
; Te
chni
cal U
nive
rsity
, Tur
key
10:3
0 Re
fres
hmen
ts a
nd E
xhib
ition
- Lo
unge
Sess
ion
2.2a
DI
C te
chni
ques
and
app
licat
ions
2
Sess
ion
2.2b
Pl
astic
stra
in m
easu
rem
ent
Sess
ion
2.2c
Ge
omec
hani
cs
11:0
0 St
ruct
ured
-ligh
t bas
ed 3
D-DI
C m
easu
rem
ent
V Lu
dwik
owsk
i, M
Gre
wer
, B W
iene
ke,
LaVi
sion
Gm
bH, G
erm
any
Shea
r ban
ds in
Zr-
Cu-b
ased
met
allic
gla
sses
: New
in
sight
V
Nek
ouie
, A R
oy, V
.V S
ilber
schm
idt,
Loug
hbor
ough
U
nive
rsity
, UK
3D v
eloc
ity d
istrib
utio
n of
P a
nd S
wav
es in
rock
s by
mea
ns o
f ultr
ason
ic a
nd n
eutr
on d
iffra
ctio
n st
udy
T Lo
kajíč
ek, T
Svi
tek,
Inst
itute
of G
eolo
gy, A
S CR
, v.
v.i.,
Cze
ch R
epub
lic, T
I Iv
anki
na, J
oint
Inst
itute
of
Nuc
lear
Res
earc
h, R
ussia
, H K
ern,
Uni
vers
ity o
f Kie
l, Ge
rman
y
11:2
0 U
sing
DIC
to d
evel
op a
n ex
perim
enta
l met
hodo
logy
fo
r mea
surin
g m
oist
ure
indu
ced
fatig
ue in
pan
el
pain
tings
C
Youn
g, A
Aur
and,
Cou
rtau
ld In
stitu
te o
f Art
, UK
Dam
age
and
defo
rmat
ion
anal
ysis
of T
i-6Al
-4V
diam
ond
latt
ice
stru
ctur
es
H Gh
adbe
igi,
R Go
odal
l, M
A K
hoda
dadi
, E T
yrw
hitt
Jo
nes,
Uni
vers
ity o
f She
ffiel
d, U
K
The
mec
hani
cal r
espo
nse
of E
tnea
n vo
lcan
ic sa
nd
and
rock
s to
impa
ct lo
adin
g an
d th
e ef
fect
of s
and
impi
ngem
ent o
n tit
aniu
m a
lloys
A
Pelle
grin
o, F
De
Cola
, N P
etrin
ic, U
nive
rsity
of
Oxf
ord,
UK
11:4
0 Cn c
ontin
uity
in D
igita
l Im
age
Corr
elat
ion
L W
ittev
rong
el, P
Lav
a, D
Deb
ruyn
e, S
V L
omov
, KU
Le
uven
, Bel
gium
The
effe
ct o
f mic
rost
ruct
ural
cha
nges
on
the
ther
moe
last
ic re
spon
se in
AIS
I 316
L au
sten
itic
stai
nles
s ste
el d
urin
g th
e th
erm
oela
stic
stre
ss
anal
ysis
of w
eldm
ents
E
C Ch
eval
lier,
J M D
ulie
u-Ba
rton
, Uni
vers
ity o
f So
utha
mpt
on, S
Bla
ckw
ell,
R M
San
ders
on, T
WI,
UK
Stra
in fi
elds
and
mec
hani
cal r
espo
nse
of fi
ssur
ed
clay
s C
Vito
ne, F
Cot
ecch
ia, T
echn
ical
Uni
vers
ity o
f Bar
i, Ita
ly, G
Vig
gian
i, U
nive
rsity
Gre
nobl
e Al
pes,
Fra
nce,
S
A Ha
ll, L
und
Uni
vers
ity, S
wed
en
12:0
0 Au
tono
mou
s sur
face
disc
ontin
uity
det
ectio
n m
etho
d w
ith d
igita
l im
age
corr
elat
ion
A F
Cina
r, R
A To
mlin
son,
M M
osta
favi
, Uni
vers
ity o
f Sh
effie
ld, S
M B
arhl
i, T
J Mar
row
, Uni
vers
ity o
f O
xfor
d, D
Hol
lis, L
aVisi
on, U
K
Surf
ace
undu
latio
n of
pur
e tit
aniu
m g
rain
s und
er
elas
tic a
nd p
last
ic te
nsile
con
ditio
ns
N T
ada,
Oka
yam
a U
nive
rsity
, Jap
an
Dete
ctio
n of
alk
ali-s
ilica
reac
tion
by m
eans
of
ultr
ason
ic so
undi
ng –
a p
ilot s
tudy
T
Loka
jíček
, M P
etru
žále
k, T
Svi
tek,
Inst
itute
of
Geol
ogy,
AS
CR, v
.v.i.
, A Š
t’ast
ná, Š
Šac
hlov
á, R
Př
ikry
l, Ch
arle
s Uni
vers
ity in
Pra
gue,
Cze
ch R
epub
lic
12:2
0 Lo
adin
g id
entif
icat
ion
on a
tire
/rim
con
tact
for a
n in
flatio
n pr
essu
re
R Gr
as, F
Hild
, EN
S Ca
chan
/LM
T-Ca
chan
, D M
elle
, M
essie
r-Bu
gatt
i-Dow
ty, F
ranc
e
A m
etho
d fo
r ide
ntifi
catio
n of
hig
h-qu
ality
subs
ets
with
in a
dom
ain
of in
tere
st -
estim
atio
n of
m
icro
scal
e st
rain
fiel
ds in
pea
rlitic
stee
l usin
g DI
C an
d in
-situ
SEM
E
Dart
feld
t, SP
Tec
hnic
al R
esea
rch
Inst
itute
of
Swed
en, J
Ahl
strö
m, M
Hör
nqvi
st, C
halm
ers
Uni
vers
ity o
f Tec
hnol
ogy,
R P
eng,
Lin
köpi
ng
Uni
vers
ity, S
wed
en
Neu
tron
imag
ing
of d
efor
mat
ion
and
fluid
flow
in
sand
ston
es
E Tu
disc
o, S
A H
all,
Lund
Uni
vers
ity, S
wed
en, E
M
Char
alam
pido
u, H
erio
t-W
att U
nive
rsity
, UK,
H S
one,
GF
Z G
erm
an R
esea
rch
Cent
re fo
r Geo
scie
nces
, N
Kard
jilov
, HZB
, Ger
man
y, J
Hovi
nd, P
SI, S
witz
erla
nd
12:4
0 36
0-de
g fu
ll-fie
ld m
easu
rem
ent o
f ste
el sp
ecim
ens
unde
r com
bine
d te
nsio
n/to
rsio
n lo
ads
M R
ossi,
D A
mod
io, U
nive
rsità
Pol
itecn
ica
delle
M
arch
e, K
Gen
oves
e, U
nive
rsità
deg
li St
udi d
ella
Ba
silic
ata,
L C
orte
se, F
ree
Uni
vers
ity o
f Boz
en-
Bolza
no, I
taly
Reco
gniti
on o
f pla
stic
ity a
t the
mes
osca
le u
sing
text
ure
feat
ures
from
bac
ksca
tter
ed e
lect
ron
imag
es
W W
ang,
Man
ches
ter M
etro
polit
an U
nive
rsity
, K
Shah
, E A
Pat
ters
on, U
nive
rsity
of L
iver
pool
, UK
Flow
pro
pert
ies i
n sa
ndst
ones
with
labo
rato
ry
indu
ced
defo
rmat
ion
band
s E
M C
hara
lam
pido
u, G
Cou
ples
, H L
ewis,
Her
iot-
Wat
t Uni
vers
ity, U
K, S
Sta
nchi
ts, T
erra
Tek,
Sc
hlum
berg
er, U
SA, S
A H
all,
Lund
Uni
vers
ity,
Swed
en, G
Vig
gian
i, U
nive
rsity
Gre
nobl
e Al
pes,
Fr
ance
13
:00
Lunc
h an
d Ex
hibi
tion
- Lou
nge
28 29
ProgrammeProgramme14
:00
Best
Pap
er in
Str
ain
- Ple
nary
Lec
ture
The
atre
Fu
ll-fie
ld m
easu
rem
ents
on
low
-str
aine
d ge
omat
eria
ls u
sing
envi
ronm
enta
l sca
nnin
g el
ectr
on m
icro
scop
y an
d di
gita
l im
age
corr
elat
ion:
impr
oved
imag
ing
cond
ition
s L.
L. W
ang,
M. B
orne
rt, E
. Hér
ipré
, S. C
hanc
hole
, A. T
angu
y 14
:30
BSSM
You
ng S
tres
s Ana
lyst
Com
petit
ion
Dete
rmin
atio
n of
mic
ro-r
esid
ual s
tres
s dist
ribut
ion
in m
ulti
phas
e ce
ram
ic c
ompo
sites
usin
g Ra
man
spec
tros
copy
M
DeV
ries,
Uni
vers
ity o
f Flo
rida,
USA
A
new
whi
te li
ght i
mag
ing
appr
oach
for i
ntra
lam
inar
fatig
ue c
hara
cter
isatio
n of
GFR
P J G
lud,
Aal
borg
Uni
vers
ity, D
enm
ark
Thre
e di
men
siona
l in
situ
quan
tific
atio
n of
loca
lised
non
-line
ar d
efor
mat
ions
with
in h
eter
ogen
eous
mat
eria
ls
M S
L Jo
rdan
, Uni
vers
ity o
f Oxf
ord,
UK
Mea
sure
men
t of h
ighl
y no
n-un
iform
resid
ual s
tres
s fie
lds w
ith re
duce
d pl
astic
err
or
H K
Kim
, Uni
vers
ity o
f Bris
tol,
UK
15:3
0 Re
fres
hmen
ts a
nd E
xhib
ition
- Lo
unge
16
:00
BSSM
Mea
sure
men
ts L
ectu
re -
Plen
ary
Lect
ure
Thea
tre
New
opp
ortu
nitie
s in
high
stra
in ra
te te
stin
g ba
sed
on fu
ll-fie
ld m
easu
rem
ents
Pr
of F
abric
e Pi
erro
n, U
nive
rsity
of S
outh
ampt
on, U
K
17
:00
BSSM
AGM
– R
oom
1
19:0
0 Co
nfer
ence
Din
ner –
Pla
yfai
r Lib
rary
Co
ache
s dep
art m
ain
rece
ptio
n
Thur
sday
3rd
Sep
tem
ber
08:3
0 Pl
enar
y Le
ctur
e 3
- Ple
nary
Lec
ture
The
atre
Im
age
anal
ysis
of fu
ll-fie
ld v
ibra
tion
and
stra
in d
ata
Prof
John
Mot
ters
head
, Uni
vers
ity o
f Liv
erpo
ol, U
K
Plen
ary
Lect
ure
Thea
tre
Gibs
on R
oom
Sess
ion
3.1a
Re
sidu
al st
rain
mea
sure
men
t Se
ssio
n 3.
1b
Mat
eria
l dam
age
asse
ssm
ent
09:1
5 An
alys
is of
tota
l res
idua
l str
ains
aro
und
cold
exp
ande
d ho
les
K Am
jad,
E A
Pat
ters
on, U
nive
rsity
of L
iver
pool
, UK,
W-C
Wan
g, N
atio
nal T
sing
Hua
Uni
vers
ity, T
aiw
an
Qua
ntita
tive
mea
sure
men
t of t
he J-
inte
gral
of l
oade
d cr
acks
usin
g 2D
and
3D
digi
tal i
mag
e co
rrel
atio
n S
M B
arhl
i, T
J Mar
row
, Uni
vers
ity o
f Oxf
ord,
UK,
J Ré
thor
é, J
Lach
ambr
e, J-
Y Bu
ffièr
e, IN
SA L
yon,
Fra
nce
09:3
5 Re
sidua
l str
ess m
easu
rem
ents
on
nove
l XFI
NE
AA21
24-S
iCp
com
posit
es u
sing
the
cont
our m
etho
d J A
rauj
o de
Oliv
eira
, J K
owal
, S G
ungo
r, Th
e O
pen
Uni
vers
ity, M
Fitz
patr
ick,
Co
vent
ry U
nive
rsity
, UK
Bare
ly v
isibl
e im
pact
dam
age
dete
ctio
n in
a c
ompo
site
turb
ine
blad
e us
ing
3D
scan
ning
lase
r vib
rom
eter
y R
Mar
ks, C
Gill
am, A
Cla
rke,
R P
ullin
, Car
diff
Uni
vers
ity, U
K
09:5
5 Re
sidua
l str
ess a
naly
sis o
f cer
amic
coa
ting
by n
on-c
onta
ct m
etho
ds
G Pe
drin
i, V
Mar
tínez
-Gar
cía,
P W
eidm
ann,
M W
enze
lbur
ger,
A Ki
lling
er, U
W
eber
, S S
chm
aude
r, R
Gado
w, W
Ost
en, U
nive
rsity
of S
tutt
gart
, Ger
man
y
Imag
e de
com
posit
ion
of fu
ll fie
ld st
rain
for i
mpa
ct d
amag
e as
sess
men
t of
com
posit
es
W J
R Ch
ristia
n, E
A P
atte
rson
, F A
Dia
z De
la O
, Uni
vers
ity o
f Liv
erpo
ol, U
K
10:1
5 Va
lidat
ion
of a
synt
hetic
bitm
ap fo
r the
dev
elop
men
t of r
esid
ual s
tres
s as
sess
men
t usin
g th
erm
oela
stic
stre
ss a
naly
sis
G P
How
ell,
J M D
ulie
u-Ba
rton
, M A
chin
tha,
Uni
vers
ity o
f Sou
tham
pton
, UK
Mod
e I-I
II de
com
posit
ion
of th
e J-i
nteg
ral t
o ca
lcul
ate
stre
ss in
tens
ity fa
ctor
s fr
om d
igita
l im
age
corr
elat
ion
disp
lace
men
t dat
a M
R M
olte
no, T
H B
ecke
r, St
elle
nbos
ch U
nive
rsity
, Sou
th A
fric
a
10:3
5 Re
fres
hmen
ts -
Loun
ge
Se
ssio
n 3.
2a
Vibr
atio
n m
easu
rem
ent
Sess
ion
3.2b
M
echa
nica
l and
mat
eria
l tes
ting
11:0
0 Ac
tive
vibr
atio
n re
duct
ion:
Gen
etic
alg
orith
m o
ptim
isatio
n us
ing
the
phys
ical
st
ruct
ure
J M H
ale,
New
cast
le U
nive
rsity
, UK
The
mat
rix m
etho
d; a
bet
ter a
ltern
ativ
e to
the
sin2ψ
and
oth
er m
etho
ds
B O
rtne
r, U
nive
rsity
of L
eobe
n, A
ustr
ia
11:2
0 De
velo
pmen
t of t
he E
urop
ean
ultr
ason
ic p
lane
tary
cor
e dr
ill
A Bo
lhov
itins
, X L
i, R
Tim
oney
, P H
arkn
ess,
M L
ucas
, Uni
vers
ity o
f Gla
sgow
, UK
AFM
, fre
quen
cy a
naly
sis a
nd m
odel
ling
tech
niqu
es fo
r the
size
effe
ct in
bea
m
bend
ing
C Li
ebol
d, W
H M
ülle
r, Te
chni
cal U
nive
rsity
of B
erlin
, Ger
man
y
30 31
ProgrammeProgramme11
:40
Fric
tion
indu
ced
vibr
atio
n of
a m
ovin
g sli
der o
n an
ela
stic
disc
with
sepa
ratio
n an
d re
atta
chm
ent
Z Li
, H O
uyan
g, ,
Uni
vers
ity o
f Liv
erpo
ol, U
K
An in
nova
tive
met
hod
for m
easu
ring
Youn
g’s m
odul
us o
f a fl
exib
le c
ircul
ar ri
ng
(ow
n-w
eigh
t circ
ular
ring
met
hod)
A
Oht
suki
, Mei
jo U
nive
rsity
, Jap
an
12:0
0 Sq
ueez
e-fil
m le
vita
tion
char
acte
ristic
s of p
late
s exc
ited
by p
iezo
elec
tric
ac
tuat
ors
A Al
mur
shed
i, M
Ath
erto
n, C
Mar
es, T
Sto
lars
ki, B
rune
l Uni
vers
ity, U
K, B
Wei
, Be
ihan
g U
nive
rsity
, Chi
na
Mec
hani
cal t
estin
g in
pre
ssur
ized
hydr
ogen
and
car
bon
diox
ide
G Be
noit,
S B
oyer
, S C
asta
gnet
, G H
enaf
f, E
Lain
e, F
Mau
get,
Pprim
e In
stitu
te,
Uni
vers
ity o
f Poi
tiers
, Fra
nce
12:2
0 Ba
ckbo
ne c
urve
s an
d N
onlin
ear n
orm
al m
odes
: a n
ew id
entif
icat
ion
tool
A
Cam
mar
ano,
Uni
vers
ity o
f Gla
sgow
, T L
Hill
, S A
Nei
ld, U
nive
rsity
of B
risto
l, P
L Gr
een,
Uni
vers
ity o
f Liv
erpo
ol, U
K
Use
of p
iezo
elec
tric
thic
k fil
m se
nsor
s to
mea
sure
stre
ss d
istrib
utio
n w
ithin
a
lap
join
t A
Delig
iann
i, G
Kots
ikos
, J M
Hal
e, U
nive
rsity
of N
ewca
stle
, UK
12:4
0 Da
mpi
ng p
erfo
rman
ce o
f nov
el v
iscoe
last
ic d
oubl
e sh
ear l
ap jo
int d
ampe
rs in
lig
htw
eigh
t hon
eyco
mb
sand
wic
h pa
nels
- sim
ulat
ion
and
expe
rimen
tal
mea
sure
men
t P
Aum
jaud
, D L
efra
nc, K
E E
vans
, C W
Sm
ith, U
nive
rsity
of E
xete
r, U
K
Eval
uatio
n of
nuc
lear
gra
phite
seal
A
Wilc
ox, E
A P
atte
rson
, Uni
vers
ity o
f Liv
erpo
ol, U
K
13:0
0 Lu
nch
- Lou
nge
Se
ssio
n 3.
3a
Ther
mal
met
hods
Se
ssio
n 3.
3b
Mod
el v
alid
atio
n 14
:00
Diffe
rent
ial s
cann
ing
calo
rimet
ry o
f sup
erel
astic
niti
nol f
or tu
neab
le d
evic
es
A Fe
eney
, M L
ucas
, Uni
vers
ity o
f Gla
sgow
, UK
Prel
imin
ary
eval
uatio
n of
val
idat
ion
met
rics f
or c
ompu
tatio
nal m
echa
nics
m
odel
s K
Dvur
ecen
ska,
E A
Pat
ters
on, E
Pat
elli,
Uni
vers
ity o
f Liv
erpo
ol, S
Gra
ham
, N
atio
nal N
ucle
ar L
abor
ator
y, U
K 14
:20
Mot
ion
com
pens
atio
n fo
r com
plex
def
orm
atio
ns in
ther
moe
last
ic st
ress
an
alys
is J M
Dul
ieu-
Bart
on, W
Wan
g, R
Frü
hman
n, U
nive
rsity
of S
outh
ampt
on, U
K
Char
acte
risat
ion
of a
niso
trop
ic p
last
ic b
ehav
iour
usin
g an
inve
rse
met
hod
J Seo
, J-H
Kim
, F B
arla
t, Po
hang
Uni
vers
ity o
f Sci
ence
and
Tec
hnol
ogy,
M L
ee,
Kore
a U
nive
rsity
, Rep
ublic
of K
orea
, F P
ierr
on, U
nive
rsity
of S
outh
ampt
on, U
K 14
:40
Rela
tions
hip
betw
een
tem
pera
ture
and
stre
ss o
f ultr
avio
let-
cura
ble
resin
du
ring
curin
g E
Um
ezak
i, H
Kpya
ma,
Nip
pon
Inst
itute
of T
echn
olog
y, Ja
pan
Inve
rse
met
hod
to d
eter
min
e th
e pl
astic
stre
ss st
rain
cur
ve fr
om n
on-
conv
entio
nal t
ests
F
J Góm
ez, A
dvan
ced
Mat
eria
l Sim
ulat
ion
S.L.
, M A
Mar
tín-R
enge
l, J R
uiz-
Herv
ías,
Uni
vers
idad
Pol
itécn
ica
de M
adrid
, Spa
in
15:0
0 To
war
ds c
ombi
ning
ther
moe
last
ic st
ress
ana
lysis
and
dig
ital i
mag
e co
rrel
atio
n fo
r str
ain-
base
d N
DE
R C
Tigh
e, J
M D
ulie
u-Ba
rton
, S Q
uinn
, Uni
vers
ity o
f Sou
tham
pton
, UK
Topo
logy
opt
imisa
tion
and
mod
el v
alid
atio
n of
sele
ctiv
e la
ser m
elte
d co
mpo
nent
s usin
g di
gita
l im
age
corr
elat
ion
M F
aes,
Y W
ang,
P L
ava,
D M
oens
, KU
Leu
ven,
Bel
gium
15
:20
Mov
emen
t of u
ncur
ed u
ltrav
iole
t-cu
rabl
e re
sin d
urin
g cu
ring
H Ko
yam
a, E
Um
ezak
i, N
ippo
n In
stitu
te o
f Tec
hnol
ogy,
Japa
n
Iden
tific
atio
n of
adv
ance
d fr
ictio
nal l
aws i
n se
vere
con
tact
con
ditio
ns
M W
atre
mez
, K L
e M
erci
er, D
Mer
esse
, L D
ubar
, Uni
vers
ity o
f Val
enci
enne
s,
Fran
ce
15:4
0 Cl
osin
g re
mar
ks
15:4
5 to
16
:15
Refr
eshm
ents
- Lo
unge