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Short Fatigue Crack Growth under Multi-axial Loading Conditions
Organized by
Y. Murakami and A.J. McEvily
Engineers are often called upon to design components
which will be subjected to multi-axial cyclic loading despite the fact that the
background of information in this area is relatively sparse. These sessions
will provide an overview of
the current status and the new approaches being developed in this field, particularly with respect to
the behavior of short fatigue cracks
whose growth is now recognized to take up most of the fatigue lifetime.
Session
Organizer: Prof. Y.
Murakami
Dept. of Mechanical Science and
Engineering, Faculty of Engineering
Tel:
81-92-642-3380, Fax: 81-92-641-9744, ymura@mech.kyushu-u.ac.jp
Session
Co-organizer: Prof. A. J.
McEvily
Dept. Mats. Sci. Engng.,
Tel:
860-486-2941, Fax: 860-486-4745, e-mail: mcevily@mail.ims.uconn.edu
Session Chair:
Prof. Y. Murakami
Session
Co-Chair: Prof. A. J. McEvily
Papers
1.
“Introduction and Overview”
Y. Murakami (address information above)
2.
“A Comparative Study and Analysis of Stage I Crack Growth Kinetics in Push-Pull
and Reversed Torsion in 316L Stainless Steel”
Corresponding author: V. Doquet
Laboratoire de
Mécanique des Solides, Ecole Polytechnique,
91128 Palaiseau cedex,
Tel: 33 1 69 33 33
55, Fax: 33 1 69 33 30 26
e-mail: doquet@lms.polytechnique.fr
Co-author: G. Bertolini
(same affiliation and address)
3. “Resistance-Curve Method for Predicting Fatigue
Thresholds of Notched Specimens under Multiaxial
Loading Conditions”
Corresponding author: K. Tanaka
Dept. of Mechanical Engineering,
Furo-cho, Chikusa-ku,
Tel: + 81 52 789 4672, Fax: +81 52 789
3109,
e-mail: ktanaka@everest.mecm.nagoya-u.jp
Co-author: Y. Akinawa
(same affiliation)
4.
“Effect of Notch and Hydrogen on the Torsional
Fatigue Strength of Stainless Steel”
Corresponding author: Y. Kondo
Dept. of Intelligent Machinery,
Tel: +81 92-642-3384, Fax: +81 92-641-9744
E-mail: ykondo@mech.kyushu-u.ac.jp
Co-authors: M. Kubota and K. Ohguma (same affiliation)
5. “Short crack growth in VHCF-area
for turbine blades subjected to bending-torsion cyclic loads.”
Corresponding
author: A.A.Shanyavskiy
e-mail: shana@ flysafety.msk.ru
Co-authors: M. A.
Artamonoiv, A. L. Tushentsov,
and A. Yu. Potapenko (same affiliation)
6. “Analysis of Short Fatigue Crack Growth under
Multi-axial Loading Conditions”
Corresponding
author: A. J. McEvily
(see above)
Co-author: M.
Endo (see below)
7. “Near-threshold Behavior of
Short Fatigue Cracks under Torsion”
M. Endo
Department of Mechanical Engineering,
Tel: 92-871-6631(Ext. 6319), Fax:
92-865-6031, E-mail:endo@fukuoka-u.ac.jp
8. “Short Crack Growth and Fatigue Life under Cyclic
Torsion with Static Loading”
Corresponding
author:
Department of
Mechanical Engineering, Faculty of Engineering,
3-7-2 Kajino-cho, Koganei, Tokyo, Japan 184-8584
Tel:
81-423-87-6156, Fax: 81-423-87-6121, E-mail: ohkawa@k.hosei.ac.jp
Co-authors: S.
Hirano, T. Negishi, M. Miumi
(same affiliation)
9. “Short Fatigue Cracks in Notched and Unnotched Specimens under Non-proportional Loading”
Corresponding author: Olaf Hertel
Technische Universität Darmstadt, Fachgebiet erkstoffmechanik,
Petersenstr. 12, D-64287
Tel: +49 6151 163038, Fax: +49 6151 163038,
e-mail: hertel@wm.tu-darmstadt.de
Co-author: Jens Hoffmeyer, Volkswagen AG, Wolfsburg, Germany
Ralph Döring, IAMT mbH, Plauen, Germany, Timm Seeger, TU Darmstadt,
Gerrmany, Michael Vormwald, TU Darmstadt, Germany
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