table of contentsconf.msamconf.org/2018/file/msam2018-conference guide.pdf · 2018 international...

2018 International Conference on Material Strength and Applied Mechanics (MSAM 2018)

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TABLE OF CONTENTS

Part I Conference Schedule .......................................................................................................................... 2

Part II Keynote Speeches .................................................................................................................... 5

Keynote Speech 1: Fatigue in Nano-Metals--Fatigue of Copper Thin-layer in Nanoscale Components ........ 5

Keynote Speech 2: Small is Big--Bio-inspired and Microfluidics-enabled Structures for Manipulating

Liquids ............................................................................................................................................................. 6

Keynote Speech 3: Notched-Induced Fracture of Cold-Drawn Pearlitic Steel Wires: Resembling John Ford's

Monument Valley ............................................................................................................................................ 8

Keynote Speech 4: Breakthrough Similarities of Cracks and Supercavities: Fretting Fatigue Crack and

Supercavity Motion Progress Report ............................................................................................................... 9

Part III Poster Session ................................................................................................................................. 11

Part IV Oral Presentations ......................................................................................................................... 12

Session 1: Measuring Methods and Applications .......................................................................................... 12

Session 2: Computational Methods and Modelings ...................................................................................... 14

Session 3: Simulation Processes .................................................................................................................... 15

Session 4 (A): Materials Properties ............................................................................................................... 16

Session 4 (B): Materials Properties ............................................................................................................... 17

Part V Conference Venue ........................................................................................................................... 18

Access to Venue ............................................................................................................................................ 19

Map of the Conference Venue ....................................................................................................................... 21

Part VI Group Tour ..................................................................................................................................... 22


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Part I Conference Schedule

Tuesday, April 10, 2018

Time Activity Location

09:00-19:30 Registration 1F, Kitakyushu Interna-

tional Conference Center

Notes: Please inform us your paper ID when you register (For example: MS1234).

Wednesday Morning, April 11, 2018


08:30-08:35 Opening Ceremony

3F, Conference Room 32

08:35-09:15

Keynote Speech 1: Fatigue in Nano-Metals-- Fatigue of

Copper Thin-layer in Nanoscale Components

Speaker: Prof. Takayuki Kitamura

09:15-09:55 Keynote Speech 2: Small is Big--Bio-inspired and Micro-

fluidics-enabled Structures for Manipulating Liquids

Speaker: Prof. Liqiu Wang

09:55-10:20 Pose for a Group Photo and Coffee Break

10:20-11:00

Keynote Speech 3: Notched-Induced Fracture of Cold-

Drawn Pearlitic Steel Wires: Resembling John Ford's

Monument Valley

Speaker: Prof. Jesús Toribio

11:00-11:40

Keynote Speech 4: Breakthrough Similarities of Cracks

and Supercavities: Fretting Fatigue Crack and Supercavity

Motion Progress Report

Speaker: Dr. Oleksandr Khotsianovskyi

11:40-12:10 Poster Presentations 1F, Lounge


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Wednesday Noon, April 11, 2018


12:00-13:00 Lunch Kitakyushu International

Conference Center

Wednesday Afternoon, April 11, 2018

Time Activity: Oral Presentations Location

13:30-18:30 Session 1: Measuring Methods and Applications 3F, Conference Room 32

13:30-18:15 Session 2: Computational Methods and Modelings 3F, Conference Room 33

Wednesday Evening, April 11, 2018


18:30-19:30 Dinner Kitakyushu International

Conference Center

Thursday Morning, April 12, 2018


08:30-12:15 Session 3: Simulation Processes 3F, Conference Room 33

08:30-12:15 Session 4 (A): Materials Properties 3F, Conference Room 32


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Thursday Noon, April 12, 2018


12:00-13:00 Lunch Kitakyushu International

Conference Center

Thursday Afternoon, April 12, 2018


13:30-18:45 Session 4 (B): Materials Properties 3F, Conference Room 32

Thursday Evening, April 12, 2018


18:30-20:00 Welcome Banquet & Prizes Ceremony Station Hotel Kokura

Friday, April 13, 2018

Time Activity

08:30-13:30 Group Tour

Kokura Castle- Kokura Garden & Matsumoto Seicho Memorial Museum


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Part II Keynote Speeches

Keynote Speech 1: Fatigue in Nano-Metals-- Fatigue of Copper Thin-layer in Na-

noscale Components

Speaker: Prof. Takayuki Kitamura

Graduate School of Engineering, Department of Mechanical Engineering and Science, Kyoto

University, Japan

Abstract of the speech: In order to investigate fatigue behaviour of a nano-

scale metals under fully-reversed and high-cycle loading, resonant fatigue ex-

periments are performed for nano-cantilever specimen. This abstract de-

scribes fatigue damage behaviour of only a nano-polycrystalline Cu thin layer

sandwiched by Si and SiN though we present the results obtained in fatigue

of single crystal metals as well in the talk. The high-cycle fatigue loading

brings about crystallographic slip bands associated with extrusion/intrusion

of about 30 nm width on the Cu surface. The slip bands form only in a particular grain though other

grains possess slip systems with a higher Schmid factor (Figure). Stress analysis, taking into account

the Cu grains and dissimilar surrounding materials, indicates that the grain where the slip bands form

possesses a slip system with the highest resolved shear stress in all grains.

Figure (a) Magnified view of Grain 3, (b) SEM image of the upper surface tilted at 80 degrees, and

(c) stereographic projection of Grain 3.


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Keynote Speech 2: Small is Big--Bio-inspired and Microfluidics-enabled Struc-

tures for Manipulating Liquids

Speaker: Prof. Liqiu Wang1,2

1 Department of Mechanical Engineering, the University of Hong Kong, Hong Kong, China 2 HKU-Zhejiang Institute of Research and Innovation (HKU-ZIRI), Zhejiang, China

Abstract of the speech: Nature has always been our inspiration source of in-

novations. Chinese Kung Fu developed effective moves from hunting skills of

powerful beasts like snakes, eagles, and tigers; airplanes mimic the skillful

flight of birds; legged robots imitate legged animals such as dogs and spiders.

Nowadays, state-of-the-art technology enables us to unveil mysteries of the

microscopic world and thus invent at microscale with precision. We have been

using the precision of microfluidics in manipulating liquids at nano-, pico-,

femto- and even atto-liters and engineering nano-/microstructures to mimic

evolutionarily-optimized nano/microstructures in insects that interact with liquids, and thus developed

a series of techniques for manipulating liquids precisely: water collecting, liquids repelling, and drop-

lets manoeuvring. The breakthroughs have yielded three articles in Nature Communications published

in 2017.

Unique structural and topological features of spider-silks and their web enable them being a super

water collector witnessed by a large number of water droplets handing on them in the early morning.

With the microfluidic technology, we have precisely fabricated robust microfibers with spindle cavity-

knots and different topological fiber-networks in mimicking these features. These microfibers are en-

dowed with unique surface roughness, mechanical strength, and long-term durability, thus enabling a

super performance in collecting water. The maximum water volume collected on a single knot is almost

495 times the knot volume; the water collection is even more efficient and scalable with their networks.

These light-weighted yet tough, low-cost microfibers offer promising opportunities for large-scale wa-

ter collection in water-deficient areas.

On a sunny summer day, beaches are full of joys: kids build sand castles; adults swim or surf waves.

However, people have to suffer from getting clothes wet. Inspired by springtail cuticle, we have fabri-

cated liquid-repellent surfaces that can eliminate this situation. The fabrication technique is based on

microfluidic-droplets templates, similar to the method for making shaped cookies using baking molds.

The functional surfaces repel both water and oils attributed to springtail-cuticle-mimicked nano/mi-

crostructures. The work offers deep insights of liquid-repelling structures and benefits our daily life

significantly with applications in various fields ranging from clothes, kitchenware, automobiles, chem-

ical engineering and electronics to bio-medical industry and advanced manufacturing where repelling


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liquid is relevant.

Some semiaquatic insects can readily walk on water and climb up menisci slope due to the dense hair

mat and retractable claws of complementary wettability on their tarsi. Inspired by this, we created a

mechano-regulated surface whose adhesive force to liquid droplets can be simply switched through

mechanical regulation. The mechano-regulated surface functions as a “magic hand” that can capture

and release multiple tiny droplets precisely in a loss-free manner, and works for both water and oil

droplets down to nano-litre scale. These surfaces are relevant and crucial in various high-precision

fields such as medical diagnosis and drug discovery where the precise transferring of tiny liquid is a

must.

Learning from nature paves the way for creating nano/microstructures with unique features to interact

with liquids on-demand. Small yet powerful, these structures can manipulate liquids of volume much

larger than their dimensions effectively and precisely. With these techniques, water can be gathered

directly from the air in deserts, clothes are never been wetted on rainy days, and liquids can be con-

veniently handled like solids.


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Keynote Speech 3: Notched-Induced Fracture of Cold-Drawn Pearlitic Steel Wires:

Resembling John Ford's Monument Valley

Speaker: Prof. Jesús Toribio

Fracture & Structural Integrity Research Group (FSIRG), University of Salamanca (USAL),

Spain

Abstract of the speech: This paper deals with fracture behavior and struc-

tural integrity of progressively cold-drawn pearlitic steels on the basis of

their microstructural evolution during manufacturing by multi-step cold

drawing. It is seen that the manufacture technique by progressive cold

drawing in several steps produces a microstructural evolution in the form

of progressive slenderizing and orientation (in the wire axis or cold draw-

ing direction) of the pearlitic colonies (first microstructural level), as well

as increasing orientation and densification of the ferrite/cementite lamel-

lae (second microstructural level) linked with a decrease of pearlite (ferrite/cementite) interlamellar

spacing. Thus the microstructure of the cold-drawn pearlitic steel wires becomes progressively ori-

ented as the cold-drawing degree increases and this microstructural fact influences their macroscopic

behavior by inducing anisotropic fracture and crack path deflection. Therefore, this paper offers a mi-

cro- and macro-approach to the fracture and structural integrity of cold-drawn pearlitic steels, intro-

ducing the new concept of microstructural integrity. Results on fracture of notched specimens of very

different geometries (very distinct degree of constraint) shown the necessity of both microstructural

orientation and triaxiality level to obtain fracture path deflection resembling John Ford’s movies and

producing a kind of Monument Valley Profile (MVP), cf. Fig. 1.

Fig. 1 Fracture of notched specimens of cold drawn pearlitic steel: Monument Valley Profile (MVP).


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Keynote Speech 4: Breakthrough Similarities of Cracks and Supercavities: Fret-

ting Fatigue Crack and Supercavity Motion Progress Report

Speaker: Dr. Oleksandr Khotsianovskyi1,2

1 Pisarenko Institute of Problems of Strength of the National Academy of Sciences of Ukraine,

Ukraine 2 Strength of Materials, Springer Nature, US

Abstract of the speech: The discussion will cover two friction-related phe-

nomena occurring under oscillating shear and negative normal stresses: (i)

fast initiation and propagation of fretting fatigue cracks in aircraft and

spacecraft materials and (ii) ventilated supercavity formation and evolution

around an underwater body (torpedo or projectile), which impacts it high-

speed motion. A brief survey of current advances in these domain is supple-

mented with the author’s contributions to solving both problems based on

fracture and continuum mechanics.

Fretting fatigue is known to occur at relative displacement (slip) of a cyclically loaded structural com-

ponent against a clamped counterbody. Normal and shear surface stresses in slip give rise to early

nucleation and quick propagation of short cracks with the stress intensity factors (SIF), being inversely

proportional to the crack length, while the bulk SIF is directly proportional to the latter. Fracture me-

chanics approach is widely used for predicting the fretting fatigue propagation phase, corresponding

to the larger share of the total structural component life. The mixed-Mode (KI and KII) initial crack

propagation dependent on the friction coefficient is shown to be the most accurately predicted with the

two-parameter criterion proposed by Japanese scholars (Otsuka, Shugovara, and Shomura) and refined

by the author for the fretting fatigue case. Since a particular combination of surface and bulk stresses

controls the crack propagation direction and its rate, inducing the recurrent variation of the stress ratio

R, it is accounted for via Elber’s and Marci’s effective SIF concepts modified by the author, while the

effect of negative residual stresses, induced by shot- and laser peening, on SIF and the total life is

simulated. Fretting fatigue life calculation results are obtained for steel, Al and Ti alloy and superalloy

specimens and structural components of particular aircrafts and spacecrafts produced in Ukraine. Re-

cent studies and experimental techniques in this domain are briefly discussed, which combine fracture

mechanics and tribological techniques and provide the engineering approach that may be extended to

other domains of solid body and fluid mechanics.

One of such domains is the supercavitating motion of underwater bodies at superhigh speeds. The in-

water motion speed of modern surface vessels is limited by viscous resistance (drag) of water, which

grows with the motion speed. A drastic drag reduction is achieved by separating the vessel hull from

water using a disk- or cone-shaped cavitator, which “opens an umbrella” over the major part of the

hull to produce an ellipsoidal air bubble (supercavity) inflated by an artificial or natural air inflow,


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which permits of a very high motion speed. This supercavitating principle was implemented in high-

speed underwater vehicles (HSUV) and small water area twin hull (SWATH) vessels, as well as in a

famous Shkval high-speed torpedo, which appeared in the USSR in 1977, i.e. about 40 years ago.

However, the progress in this domain exhibited a saturation until Barracuda supercavitating torpedo

appeared in Germany in 2005. Then in 2015, Chinese scientists managed to control the cavitation flow

by supplying the aqueous solutions of high-molecular linear-chain polymers, which form a "liquid

membrane" around an underwater vehicle and ensure its stable in-water ultrasonic motion. In the last

two years, some noteworthy results were also obtained by a team of Ukrainian scientists, involving the

author, within the framework of the US (DAPRA/ONR) project. Those include experimental study on

supercavitating flows past a conic cavitator at the nonzero angle of attack, in particular, hydroeleasicity

problems of supercavitating struts and stabilizers, respective tensometric measurements and underwa-

ter photography, simulation of ventilated cavity bubbles near a free surface, experiments and numerical

predictions on cavity gas entrainment, simulation of gravity and free border effects, as well as or-

ganization of the developed cavitation flow by supply of aqueous solutions of high-molecular linear-

chain polymers, which reduce friction (drag) and optimize cavity dimensions. The numerical simula-

tion results are compared with the proposed engineering solutions. The limitations of the available

results and recommended engineering solutions to these solid and liquid friction-related problems are

briefly discussed.


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Part III Poster Session

Materials Provided by the Conference Organizer:

Display Boards (594mm wide ×841mm long)

pushpin

Materials Provided by the Presenters:

Home-made Posters

Requirement for the Posters:

Material: not limited

Size: A1 size portrait (594mm wide ×841mm long) or similar

Content: for demonstration of the presenter’s paper

Time: April 11, 11:40-12:10 Location: 1F, Lounge

Paper ID Title Author

MS1009 Multi-scale simulation of lithum diffusion affected by 60° disloca-

tion in silicon Wei Zhao

MS1010 Dynamic crack initiation toughness of gy4 steel at high loading

rates Peng Ren

MS1042 Effect of tempering treatment upon the residual stress of bimetallic

roll

Yoshikazu

Sano

MS1081 Growth and characterization of InxAl1-xN films on GaN/Al2O3 sub-

strate by RF-MOMBE

Weichun

Chen

MS1096 Exact solutions for postbuckling of a graded porous beam Liansheng

Ma

MS1157 Wire drawing process design for producing fine rhodium wire Sang-Kon

Lee

MS1168 Non-dimensional equation of motion for 2D problems in ANCF Kim Kun-

woo

MS1195 Lightweight design of automobile frame based on magnesium alloy Rui Lyu

MS1196 Lightweight design and analysis of automobile wheel based on

bending and radial loads Xin Jiang


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Part IV Oral Presentations

Devices Provided by the Conference Organizer:

Laptops (with MS-Office & Adobe Reader)

Projectors & Screen

Laser Sticks

Microphones

Materials Provided by the Oral Presenters:

PowerPoint or PDF file (Note: Please show your paper ID as MS**** in the last page)

Duration of each Presentation (Tentatively):

12 Minutes for Presentation, 3-5 Minutes for Q&A

NOTE:

All technical session rooms are equipped with laptop, LCD projectors, screens, laser pointers and mi-

crophones. For presenters who don’t send the PowerPoint to the Conference Secretary, please have

your presentation ready in a memory stick, and save it in the laptop of your corresponding session

about 15 minutes before the start time (08:15 for the morning sessions, and 13:15 for the afternoon

sessions). You also need to tell the Session Chair (before the start of your Session) that you are present.

Session 1: Measuring Methods and Applications

Session Chair: Prof. Naofumi Hiraoka, Institute of Technologists, Saitama, Japan

Time: 13:30-18:30, Wednesday Afternoon, April 11, 2018

Location: 3F, Conference Room 32

Paper ID Time Paper Title Author

MS1070 13:30-13:45

Increase in strength and mitigation of fretting damage of

Ni-based superalloys for aerospace and nuclear applica-

tions

Auezhan

Amanov

MS1059 13:45-14:00 Structural analysis and design for the development of float-

ing photovoltaic energy generation system

Soon-Jong

Yoon

MS1083 14:00-14:15 Conspicuous grease leakage from rolling bearings due to

shear force and cyclic deformation on greases

Naofumi

Hiraoka


13

MS1044 14:15-14:30 Development of 10Cr-1Mo ODS steel (ARROS) for future

nuclear reactor system applications

Tae Kyu

Kim

MS1108 14:30-14:45 Creep deformation of lead-plugged rubber bearing base

isolator for wind load

Kazuhiko

Yamada

MS1185 14:45-15:00 ATR-FTIR of mucoadhesive gel-treated mucosa: time and

temperature effects

Prangtip

Uthaiwat

MS1093 15:00-15:15 Thermal stress analysis of a damaged waste heat boiler Yunghow

Wu

MS1041 15:15-15:30

Design and performance of honeycomb structure for nano-

bubbles generating apparatus having different cell dimen-

sions

Hongfang

Zhai

MS1139 15:30-15:45 Feasibility study of a brine boiling machine by solar energy Warachit

Phayom

MS1136 15:45-16:00 Structural behavior of bolted lap-joint in the pultruded fiber

reinforced polymer composite members

Soo-Young

Kim

16:00-16:15 Coffee Break

MS1068 16:15-16:30 XFEM simulation of pore-induced fracture of three-point

bending heterogeneous concrete beam Xinhua Yang

MS1141 16:30-16:45 Additive manufacture of Ni-Fe alloying microwires by lo-

calized electrochemical deposition

Jing-Chie

Lin

MS1019 16:45-17:00 Relationship between notch strengthening threshold and

mechanical property for ductile cast iron

Tomohiro

Ikeda

MS1028 17:00-17:15 Experimental study on the effect of shape of bolt and nut

on fatigue strength for bolted joint

Tomohiko

Matsunari

MS1016 17:15-17:30 Effect of hydrogen on void initiation in tensile test of car-

bon steel JIS-S25C Sho Sugawa

MS1033 17:30-17:45 Near-threshold growth behavior of shear-mode fatigue

crack in bearing steel in the presence of hydrogen Akaki Yuta

MS1180 17:45-18:00 Alumina textured ceramics with improved fracture behav-

ior and mechanical properties Yuan Sun

MS1130 18:00-18:15

On the influence of thermo-mechanical process history on

stress corrosion cracking of solution annealed type 304

stainless steel

Osama

Alyousif

MS1189 18:15-18:30 Fracture toughness of a lamellar orientation controlled TiAl

intermetallic compounds

Makoto Ha-

segawa


14

Session 2: Computational Methods and Modelings

Session Chair: Prof. Andreas Wierschem, Institute of Fluid Mechanics, Friedrich-Alexander-Uni-

versität Erlangen-Nürnberg (FAU), Erlangen, Germany

Time: 13:30-18:15, Wednesday Afternoon, April 11, 2018



MS1007 13:30-13:45 Some remarks on the Gurtin-Murdoch model of surface

elasticity

Chong-Qing

Ru

MS1039 13:45-14:00 Worst-case loadings and load capacity ratios of structures Reuven

Segev

MS1029 14:00-14:15 Incipient motion of a single sphere on regular substrates at

low particle Reynolds numbers

Andreas

Wierschem

MS1170 14:15-14:30 Optimization of high-pressure fuel pipe shape by FEM anal-

ysis Mok Tan Ahn

MS1082 14:30-14:45 3D elastoplastic–damage model for concrete in triaxial

compression and reversed cyclic loading Lu Ma

MS1030 14:45-15:00 Numerical analysis of influence of bubble distribution on

multiple-bubble Naoya Ochiai

MS1013 15:00-15:15 Strain rate concentration factor for round and flat test spec-

imens Rei Takaki

MS1022 15:15-15:30 Fracture mechanics analysis of cracked structures using

weight function and neural network method Jianguo Chen

MS1015 15:30-15:45 Suitable pitch difference to realize anti-loosening perfor-

mance for various bolts-nuts diameter Kubo Shutaro

MS1012 15:45-16:00 3D finite element analysis of tightening process of bolt and

nut connections with pitch difference Xi Liu


MS1193 16:15-16:30 Creep damage formation behavior and crack growth life for

notched specimen of P91 steel including weld joint Go Ozeki

MS1106 16:30-16:45 Application of improved wavelet total variation denoising

for rolling bearing incipient fault diagnosis Wan Zhang

MS1005 16:45-17:00

Failure analysis of corroded subsea pipe repaired with com-

posite considering the effect of temperature and material

degradation

Yu Zhang

MS1031 17:00-17:15 Effects of hydrogen on the fatigue crack growth properties

of ferritic ductile cast iron

Takuya Yo-

shimoto

MS1001 17:15-17:30 Practical method for analyzing singular index and intensity

of singular stress field for three dimensional bonded plate

Tatsujiro

Miyazaki

MS1194 17:30-17:45 Modelling and optimal design of single coil gun Jinho Kim


15

MS1115 17:45-18:00 Elasto-limited plastic analysis of structures for probabilistic

conditions

Majid

Movahedi

Rad

MS1014 18:00-18:15 Finite element implementation of a temperature-dependent

cyclic plasticity model and its application Jun Tian

Session 3: Simulation Processes

Session Chair: Prof. Shuji Ogata, Nagoya Institute of Technology, Japan

Time: 08:30-12:15, Thursday Morning, April 12, 2018



MS1129 08:30-08:45

Apparent eddy current conductivity spectroscopy assess-

ment of metallic coating thicknesses over nonmagnetic

metals

Bassam Abu-

Nabah

MS1150 08:45-09:00 Structure of a temperature field on a free water surface Yu. G.

Verevochkin

MS1057 09:00-09:15 Fracture process reconstruction in additively manufactured

metals via FRASTA

Takao Koba-

yashi

MS1197 09:15-09:30

Homogeneous and heterogeneous micro-structuring of

austenitic stainless steels by the low temperature plasma

nitriding

Tatsuhiko Ai-

zawa

MS1191 09:30-09:45 Large-scale hybrid quantum-classical simulation of metal-

epoxy resin bonding in moisture environment Shuji Ogata

MS1020 09:45-10:00 CFD-PBM coupled simulation of a nanobubble generator

with honeycomb structure Fei Ren

MS1069 10:00-10:15

Simulation of delamination growth at tungsten-CFRP aer-

ospace laminates using VCCT and CZM modelling tech-

niques

Mikko

Kanerva

MS1087 10:15-10:30 Numerical simulation for the damage behavior of concrete

beam by an anisotropic damage model

Yuchuan

Long


MS1021 10:45-11:00

Progressive damage simulation of the pressurizer cylinder

subjected to pressure and temperature loads based on Peri-

dynamics

Zhenyu Liu


16

MS1097 11:00-11:15 Dynamic analytical response of pavement plates to posi-

tive and negative phase of friedlander load

Sofia W Alis-

jahbana

MS1046 11:15-11:30 Study on coming out of the shaft from ceramic sleeve in

terms of the residual displacement

Guowei

Zhang

MS1095 11:30-11:45 Simulations of interfacial creep generation for shrink-fitted

bimetallic work roll

Hiromasa

Sakai

MS1037 11:45-12:00 Scaling analysis and SE simulation of the tilted cylinder-

interface capillary interaction Shiqing Gao

MS1073 12:00-12:15

Effect of internal pressure on the failure of a hydrogen

charged Type-316L stainless steel under monotonic tensile

load

Sezgin Jean-

Gabriel

Session 4 (A): Materials Properties

Session Chair: Prof. Dae-Eun Kim, School of Mechanical Engineering, Yonsei University, Seoul,

Korea

Time: 08:30-12:15, Thursday Morning, April 12, 2018



MS1025 08:30-08:45 Friction and wear reduction of micro-scale systems Dae-Eun Kim

MS1105 08:45-09:00 Tribological properties of AlB12- and SiB6-powder com-

pacts prepared by spark plasma sintering

Takashi Mu-

rakami

MS1003 09:00-09:15 Mechanical and physical properties of magnesium base

nanocomposites

Zdeněk

Drozd

MS1000 09:15-09:30 An evaluation of fatigue limit of notched specimen of a

C/C composite

Chobin

Makabe

MS1050 09:30-09:45

Thermo-mechanical and isothermal low cycle fatigue fail-

ure behavior of a single crystal Ni-base superalloy and the

coatings

Masakazu

Okazaki

MS1058 09:45-10:00 Development of high strength Ti alloy compacts through

mim process

Hideshi

Miura

MS1179 10:00-10:15 Superelastic Shape memory alloy short reinforcing fiber

for cementitious materials Eunsoo Choi


17

MS1048 10:15-10:30

Non-destructive real time characterization of multiple ul-

trathin film material properties: Young`s and shear moduli,

density, thickness and residual stress utilizing conventional

atomic force microscopy

Ivo Stachiv


MS1018 10:45-11:00 Rolling contact fatigue strengths of shot-peened and crack-

healed ceramics

Koji

Takahashi

MS1002 11:00-11:15 Fatigue and fracture mechanical behavior for Chinese

A508-3 steel at room temperature Kaikai Shi

MS1104 11:15-11:30 Fabrication mechanics of film structures from aqueous dis-

persions of cellulose nanofibers

Itsuo Hana-

saki

MS1024 11:30-11:45 Strength Evaluation of Butt Joint by Stress Intensity Factor

of small edge Crack near the Interface Edge Taika Sato

MS1027 11:45-12:00 Evaluation of adhesive scarf joint strength by using singu-

lar stress field of small interface crack

Syunichi

Haraga

MS1201 12:00-12:15 Light-induced assembling of metallic nanoparticles exhib-

iting multipole superradiance toward novel biosensors Takuya Iida

Session 4 (B): Materials Properties

Session Chair: Professor Khanh Chau Le, Institute of Mechanics, Bochum University, Germany

Time: 13:30-18:45, Thursday Afternoon, April 12, 2018



MS1023 13:30-13:45 On the defect tolerance of martensitic stainless steels under

cyclic loading

Bernd

Schönbauer

MS1040 13:45-14:00 Role of precipitate microstructure near grain boundaries on

the behavior of fatigue cracks in Cu–6Ni–1.5Si alloy

Masahiro

Goto

MS1054 14:00-14:15 Enhancing strength of materials with reinforcement Sunil Mohan

MS1125 14:15-14:30 Consolidation behavior of a mixed Cu and Zn powders pro-

cessed by warm plastic working

Hiroyuki

Miki

MS1182 14:30-14:45 An analytical model for heat generation due to frictional

wear

Kazuo Ara-

kawa

MS1152 14:45-15:00 Tunable micro-electro-mechanical system resonators elec-

trothermally actuated and piezoelectrically sensed Boris Svilicic


18

MS1060 15:00-15:15

Delamination of plasters applied to historical masonry

walls: analysis by acoustic emission technique and numeri-

cal model

Alessandro

Grazzini

MS1080 15:15-15:30 Multiscale numerical study on multiferroic composite ma-

terials

Yasutomo

Uetsuji

MS1049 15:30-15:45 Control of Micro Hardness in Semiconductor by Laser Ra-

diation: from Elastic till Plastic Deformation

Arturs

Medvids

MS1004 15:45-16:00 Dislocation Mechanism of Microstructural Changes in Duc-

tile Single Crystals

Khanh Chau

Le


MS1175 16:15-16:30 Phase and microstructure transformations in 316L stainless

steel fabricated by laser additive technology LENS

Michał

Ziętala

MS1121 16:30-16:45 Evaluation of nanoscale elastic modulus of bacteria and hy-

perelastic materials by AFM nanoindentation

Bernard Hao-

chih Liu

MS1138 16:45-17:00 An experimental study on the shear strength of FRP per-

fobond shear connector

Gwon Sun

Chul

MS1011 17:00-17:15 Influence of crack-like surface defects on the fatigue limit

of nitrocarburized carbon steel

Yoshitomi

Yamada

MS1172 17:15-17:30 Uniformity of mechanical properties of Fe40Al sinters ob-

tained by PAIS method

Dariusz Sie-

miaszko

MS1017 17:30-17:45 Special sliding door with storable handrail to support senior

and handicapped persons to walk by themselves

Kinjirou Sai-

tou

MS1198 17:45-18:00

Smart sensing textile with embedded hetero-core optical fi-

ber sensors into the structure for monitoring human vital

signs and motion

Yuya Ko-

yama

MS1098 18:00-18:15

Experimental study on performance of outdoor ground ma-

terials in aspect of surface temperature by constant field ex-

periment in subtropical climate city

Jianhua Ding

MS1151 18:15-18:30 Progresses in void closure under different plastic defor-

mations Jong-Jin Park

MS1101 18:30-18:45 Discrepancy analysis of force-displacement in combination

space for concrete box girder assessment Xiongfei Ye

Part V Conference Venue

Kitakyushu International Conference Center

Address: 3-9-30 Asano, Kokurakita-ku, Kitakyushu Fukuoka, 802-0001, Japan

Website: http://convention-a.jp/kokusai-kaigi/

http://convention-a.jp/kokusai-kaigi/


19

Access to Venue

➢ Access from Airport

1. From Fukuoka Airport to JR Kokura Station

(A) By Bus: about 110 minutes

Take Nishitetsu Limited Express Bus to Kokura Bus station (Kokura ekimae bus stop)

(B) By Train: about 22-70 minutes

Take Fukuoka City Subway to JR Hakata station (about 6 minutes) and get off; and then trans-

fer to:

Option 1- JR kagoshima trunk line to JR Kokura Station (about 70min);

Option 2- JR Limited Express line to JR Kokura Station (about 40min);

Option 3- Shinkansen to JR Kokura Station (about 16min)

2. From Kitakyushu Airport to JR Kokura Station

By Bus: about 33-49 minutes

Take Kokura Non-stop Line to JR Kokura Station (about 33min);

or

Take Kokura Nakatani Line to JR Kokura Station (about 49min)

➢ Access from JR Kokura Station to Conference Venue

Kitakyushu International Conference Center is about 500 m from Kokura Station, a 5-minute walk.

http://www.fuk-ab.co.jp/english/bus.html

http://www.fuk-ab.co.jp/english/subway.html

http://www.hyperdia.com/en/

http://english.kitakyu-air.jp/access/access_buss.html


20


21

Map of the Conference Venue

➢ 1st Floor

➢ 3rd Floor


22

Part VI Group Tour

Schedule

08:30 Depart from the RIHGA Royal Hotel Kokura (Second floor)

09:00-11:30 Kokura Castle, Kokura Garden & Matsumoto Seicho Memorial Museum

12:06 Depart from the Kokura Station (Monorail)

12:06 -13:16 Lunch (Monorail)

13:30 Back to RIHGA Royal Hotel Kokura

Kokura Castle

Kokura Castle (小倉城) was built by Hosokawa Tadaoki in

1602. It was the property of the Ogasawara clan (from Ha-

rima) between 1632 and 1860. The castle was burnt down in

1865 in the war between the Kokura and Choshu clans. The

Castle was rebuilt in 1959 and was fully restored in 1990. The

castle's traditional architecture provides an interesting visual

contrast to the neighboring modern shopping and entertain-

ment center.

Kokura Garden

Kokura Castle Garden is a cultural institution with a tea room

and an exhibition building to reproduce the Typical Daimyo

gardens in Edo period. Decorum is one of the traditional Jap-

anese cultures that contain "heart of compassion" and "heart

of hospitality". The Kokura Castle Garden is the only unique

place in Japan to introduce the history of decorum.

Matsumoto Seicho Memorial Museum

Matsumoto Seicho was born in Kitakyushyu, Japan and is a

master of contemporary Japanese reasoning novels with

more than 700 well-known works. His creation broke the

fixed pattern of Whodunit and Whodunnit in the early days

of Japanese detective fiction, and created social-school nov-

els. The museum is built around Matsumoto Seicho's former

residence, presenting his creative activities with displays and

pictures, as well as showcasing the original appearance of his

studio and library.

http://www.kokura-castle.jp/

http://www.kcjg.jp/

http://www.kid.ne.jp/seicho/html/about/about.html

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