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 support@keysurf.net

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

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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

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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

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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 amandaboaler@bssm.org

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 amandaboaler@bssm.org 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

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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

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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.

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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

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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 amandaboaler@bssm.org 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.

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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 )

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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.

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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

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Digi

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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