Programme 15 June 2017

13-16 June 2017, ILEC Conference Centre, London, UK 



Thursday 15 June
08.00 onwards Registration – Room: TBC
09.00-09.30Plenary [260]
Title: TBC
Author: TBC
Chair: TBC
Room: TBC

09.30-09.45
15-Minute Comfort Break
  Session 5A – Sensors and actuators
Chair: TBC
Room: TBC
Session 5B – SHM
Chair: TBC
Room: TBC
Session 5C – Condition monitoring methods and technologies – Stress, strain analysis
Chair: TBC
Room: TBC
Session 5D – Predicted maintenance
Chair: TBC
Room: TBC
Session 5E – Condition monitoring methods and technologies – Vibration
Chair: TBC
Room: TBC
Session 5F – NDT
Chair: TBC
Room: TBC
09.45-10.05[261] Wireless and autonomous sensor for strut load monitoring

H Yoann1 and B Guillaume2
1SKF Aerospace
2Safran Aircraft Engines

[262] Non-linear methods for rapid go/no-go monitoring

N T Sewell, J C S Wright and J R Wright
Theta Technologies Limited

[263] Strain/stress condition monitoring of rail clips using wireless strain gauges

K S Tsang
School of Mechanical and Aerospace Engineering, Nanyang Technological University

[264] Is your machinery protection system making your plant less reliable?

V Gupta
Mechanical Maintenance Old Workshop Building Panipat Refinery, Panipat, Haryana

[265] Rotating blades state evaluation using relative rotor vibration measurement considering the impact of operating conditions

V Vasicek, J Liska and J Jakl
NTIS – European Centre of Excellence, University of West Bohemia, Pilsen

[266] Automated detection of welding defects in pipelines from radiographic images DWDI

N Boaretto and T Centeno
UTFPR, Brazil

10.05-10.25[267] A wireless rolling bearing cage temperature sensor for aerospace transmission diagnostic application

H Yoann
SKF Aerospace

[268] Bridge monitoring to increase transportation infrastructure resilience

S P Sveriges Tekniska Forskningsinstitut AB – SP Safety
[269] Online monitoring of high-integrity pipework

M Macpherson
Doosan Babcock

[270] Determination of the optimal maintenance threshold and periodicity of condition monitoring

V Ulansky and A Raza
Affiliation to be added
[271] Measurement and evaluation of shaft torsional vibrations to reveal the rotating blades excitation sources 

J Jakl, J Liska, S Kunkel and J Strnad
NTIS – European Centre of Excellence, University of West Bohemia, Pilsen
[272] Ultrasonic guided wave technique for the size and depth estimation of delamination-type defects in structural health monitoring of composite structures

V Samaitis and L Mažeika
Ultrasound Research Institute, Kaunas University of Technology

10.25-10.45[273] How system observability affects fault classification accuracy and implications for sensor selection and placement for condition monitoring

M Lipsett
University of Alberta

[274] Structural health monitoring of composite pressure vessels using guided ultrasonic waves

Y Lugovtsova and J Prager
Bundesanstalt für Materialforschung und - Prüfung (BAM)
[275] SPICA: On stream optical measurement to monitor creep strain

I Noteboom
DEKRA - MTI

[276] Development of Bayesian network (BN) model to estimate health factor for predictive maintenance strategy of large two-stroke marine engine

M Usman1,3, D Shorten2 and Z Yang3
1Lloyds Register EMEA, Global Technology Centre, Southampton
2Optimain, UK Ltd
3Liverpool Logistics Offshore and Marine Research Institute

[277] Engine condition and performance monitoring using cylinder head stress wave analysis

M Cox
Practice Care Maintenance Services Ltd


[278] New trends of NDT-based condition monitoring of industrial and power plants

F Niese, P Jäckel, U Rabe, H-G Herrmann and K Szielasko
Fraunhofer IZFP, Saarbrücken Campus

10.45-11.45
Tea, Coffee and Exhibition – Room: TBC
  Session 6A – Sensors and actuators
Chair: TBC
Room: TBC
Session 6B – SHM
Chair: TBC
Room: TBC
Session 6C – Condition monitoring methods and technologies – Stress, strain analysis
Chair: TBC
Room: TBC
Session 6D – Predicted maintenance
Chair: TBC
Room: TBC
Session 6E – Condition monitoring methods and technologies – Vibration
Chair: TBC
Room: TBC
Session 6F – NDT
Chair: TBC
Room: TBC
11.45-12.05[279] Customised sensor development for condition monitoring using 3D printing technologies

S K Moona1 and T Hui Ngob2
1School of Mechanical and Aerospace Engineering, Nanyang Technological University
2SMRT Trains Ltd

[280] Structural health monitoring (SHM)

L Cheng
Polytechnic University, Hong Kong

[281] Location of impact on composite plates using piezoelectric rosettes technique

A Razzini, V Lopes Jr and V Rosa
UNESP – Universidade Estadual Paulista

[282] Identification of damage ignition time with high accuracy using CUSUM chart: Four case studies

B Al-Najjar and H Algabroun
Linnaeus University, Sweden

[283] Blade synchronous frequencies identification based on non-uniform Fourier transform of multisampling data

L Yue and H Liu
College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing

[284] Damage monitoring of thread of the drilling tool joint based on magnetic memory technology

C Cheng, J Fan, J Hu and R Zhang
China University of Petroleum, Beijing

12.05-12.25[285] A novel wireless power transfer system for condition monitoring sensors on rotating spindle
Y Luo, Y Yang, S Chen and X Wen

Science and Technology on Integrated Logistics Support Laboratory, National University of Defense Technology
[286] Simulation and big data analysis for SHM systems: fractal approach

V Vengrinovich1,2, D Vintov1, V Ryabtsev3 and A Nichanovich1
1National Academy of Science of Belarus Institute of Applied Physics
2Tomsk National Research State University
3Belarus State Technical University

[287] Investigation into the cause of cab mounting bolt failures on a track renewal train

M Cox
Practice Care Maintenance Services Ltd



[288] Improve reliability with CBM

Y Wang and G Rolfe
SKF (UK) Ltd

[289] Electrical machinery condition monitoring: vibration analysis technique – a practical experience

M Tsypkin
Vibration Specialty Corporation (VSC)

[290] Condition monitoring – sub-sea problems and solutions in offshore oil and gas fields

R Bottomley
Marine and Offshore, Lloyd's Register, North America Inc

12.25-12.45 
[291] Compressive sensing-based electrostatic monitoring for abnormal exhaust particles of gas turbines

X Tang, Z-S Chen, Y Li and Y-M Yang
Science and Technology on Integrated Logistics Support Laboratory, National University of Defense
Technology

[292] Study on condition monitoring of major mechanical systems based on health management

S Gongtian2 and L Yuan1
1School of Logistics Engineering, Wuhan University of Technology, Wuhan 430063, China
2China Special Equipment Inspection and Research Institute, Beijing 100029, China
[293] THIS SLOT IS AVAILABLE FOR A LATE SUBMISSION
[294] Universal health and usage monitoring system (HUMS) enterprise solution

A Myo Tun
ST Kinetics, Singapore 

[295] Shaft speed refinement algorithms for rotary equipment vibrodiagnostics tasks

I Davydov and Y Aslamov
VibroBox
[296] Automated magnetic rope condition monitoring: concept and practical experience

D Slesarev, D Sukhorukov and I Shpakov
Intron Plus

12.45-14.00
Lunch and Exhibition – Room: TBC
14.00-14.30 
Plenary [297]
Title: TBC
Author: TBC
Chair: TBC
Room: TBC

14.30-14.45
15-Minute Comfort Break

Session 7A – Sensors and actuators
Chair: TBC
Room: TBC
Session 7B – SHM
Chair: TBC
Room: TBC
Session 7C – Instrumentation
Chair: TBC
Room: TBC
Session 7D – Predicted maintenance
Chair: TBC
Room: TBC
Session 7E – Condition monitoring methods and technologies – Vibration
Chair: TBC
Room: TBC
Session 7F – NDT
Chair: TBC
Room: TBC
14.45-15.05[298] The effective monitoring of key rotor parameters with a smart energy harvesting device for AC machines

S Tvorić, A Elez and A Kapović
KONČAR – Electrical Engineering Institute Inc

[299] Contribution of CM and NDE to asset management

P Trampus
University of Dunaújváros

[300] Best practice for turbine supervision instrumentation as a function of turbine power and scheduled maintenance approach

R Nowicki
GE Digital

[301] A decade of RCM – points condition monitoring

M Fearn
Balfour Beatty

[302] Sparse wavelet signal decomposition for solving vibrodiagnostics problems

I Davydov and Y Aslamov
Logoiski Trukt
[303] Airborne ultra-broadband NDT with an optical microphone and a thermoacoustic emitter

T Herbst
Xarion Laser Acoustics GmbH
15.05-15.25
[304] A comparative study on the use of different methods for gravitational acceleration cancellation providing pure tangential acceleration for condition monitoring

Z Mones
University of Huddersfield
[305] Research on condition monitoring of major amusement devices based on health management

L Yuan1 and S Gongtian2
1School of Logistics Engineering, Wuhan University of Technology, Wuhan 430063, China

2China Special Equipment Inspection and Research Institute, Beijing 100029, China
[306] Len Gelman to provide title and abstract[307] The shift to unattended measurement of track geometry

D Thompson
Balfour Beatty
[308] Case study on resolving structural vibration issues on a multi-stage pump

M Shalabi, M Shalabi and N Peton
GE Oil & Gas –  Bently Nevada

[309] High-frequency guided waves evaluation of plate-like structures using ultrasonic phased array transducers

M J Ranjbar and S Sodagar
University of Technology, Iran
15.25-15.45 
[310] THIS SLOT IS AVAILABLE FOR A LATE SUBMISSION
[311] Experimental results from condition monitoring of railway infrastructure and rolling stock

F Cangioli, M Carnevale, S Chatterton, A De Rosa and L Mazzola
Dipartimento di Meccanica, Politecnico di Milano, Italy

[312] Data analytics for condition monitoring on board container ships

M Chai
National University of Singapore 
[313] Utilising holistic condition monitoring on MV/HV motors to reduce unplanned downtime

A Mellor
Pragmatic Maintenance and Reliability Ltd


[314] Application of wavelet packet transform and envelope analysis to non-stationary vibration signals for the fault diagnosis of a reciprocating compressor

E Ugonnaya, E Ogbulafor, G Feng, Z Mones, A D Ball and F Gu
University of Huddersfield

[315] Monitoring of risks based on early diagnostics of equipment and structures metal state in stress concentration zones – the sources of damage development

A Dubov and S Kolokolnikov
Energodiagnostika Co Ltd

15.45-16.15
Tea, Coffee and Exhibition – Room: TBC
16.15-16.35 
[316] Two-wire IEPE or CLD electronics interface sensors with integrated mechanical transducing and temperature monitoring capability

G Zusman
Vibration Measurement Solutions

[317] A novel decision support model for composite repair decision process

S Thyagarajan1 and V Gollnick2
1DLR Institute of Air Transportation Systems
2TUHH Institute of Air Transportation Systems

[318] Correction of error caused by parameters spread of phase (linear) channels under measurement of voltage unbalance for electrical condition monitoring

D Makov
National Technical University of Ukraine



[319] Developing a condition-based maintenance concept for fatigue-driven failure of structural parts

H Meyer1, S Thyagarajan1 and V Gollnick2
1DLR Institute of Air Transportation Systems
2TUHH Institute of Air Transportation Systems

[320] Feature extraction for rolling element bearings prognostics using vibration high-frequency spectrum

M Behzad1, H Adding Arghand1 and A R Bastami2
1Sharif University of Technology, Tehran
2Shahid Beheshti University, Tehran

[321] High-energy 3D computed tomography (CT) metrology and inspection: one operation

B Ingham
Rolls-Royce plc

16.35-16.55 
[322] Health monitoring for thermite welds of railway track using a wireless sensor network

V Dikshit and J H L Pang
School of Mechanical and Aerospace Engineering, Singapore


[323] Early default detection with distributed optical fibre sensors

E Buchoud and J-M Hénault
EDF, France

[324] THIS SLOT IS AVAILABLE FOR A LATE SUBMISSION
[325] The tribodiagnostics of the technical condition of aviation reducers on stages of surface fatigue wear of their details by ferrography

L Shabalinskaia
Aviamotornaya 


[326] Vibration analysis for wind turbine bearing condition monitoring using wavelet filtering method

X Tang1 and L Zhang2
1Huazhong University of Science and Technology, China
2University of Manchester
[327] Analysis of geomaterial pore contents using frequency-modulated continuous waves in the X-band

J Blanche1, D Flynn1, H Lewis2, G Couples2 and R Cheung3
1Institute of Sensors, Signals and Systems, Smart Systems Group, Heriot-Watt University
2Institute of Petroleum Engineering, Heriot-Watt University
3Scottish Microelectronics Centre, University of Edinburgh

16.55-17.15
[328] Influence of parameters of a linear phased array on the ability to identify the reflectors

M F Kormiltceva 
St Petersburg State Transport University
[329] Developing a condition-based maintenance concept for fatigue-driven failure of structural parts

H Meyer1, S Thyagarajan1 and V Gollnick2
1Institute of Air Transportation Systems, DLR, Hamburg, Germany
2Institute of Air Transportation Systems, TUHH, Hamburg, Germany
[330] THIS SLOT IS AVAILABLE FOR A LATE SUBMISSION
[331] A practical methodology to allow a ship operator to transition from a planned preventative maintenance culture to one based primarily on risk

D C Shorten
Optimain Limited
[332] THIS SLOT IS AVAILABLE FOR A LATE SUBMISSION
[333] Magnetic signal variation in deformation zone of tubular tower

B Hu and S Gongtian
China Special Equipment Inspection and Research Center (CSEI)

19.30 for 20.00
Pre-dinner drinks – Room: TBC
Conference dinner – Room: TBC

Click here to view the congress programme for Tuesday 13 June, click here to view the congress programme for Wednesday 14 June or click here for the congress programme for Friday 16 June.

 


The British Institute of Non-Destructive Testing, Midsummer House, Riverside Way, Bedford Road, Northampton NN1 5NX, UK.
Tel: +44 (0)1604 438300; Fax: +44 (0)1604 438301; Email: wccm@bindt.org