In this study, the effects of oblique running and ideal motion on the stresses of bridge crane wheels were examined. The stresses on the crane wheels were calculated using the rotation angles and the forces. The commercial finite element package I-DEAS was used for the solution of the problem. The technical values of two double girder bridge cranes with 32 and 50ton carrying capacities and 18m crane span were used. Finally, the stresses caused by the oblique running were compared with the ideal motion. The numerical results show that the stress values increase by the oblique running.

1.
Thormann
,
D.
, 1989,
Querschluss-Schlupf-Funktionen an Kranlaufraedern
,
Förden und und Heben
,
Vereinigte Fachverlage, Mainz
, Nr.1, pp.
27
31
.
2.
Çeliktaş
,
M.
, 1994, “
Examination of the Motion Resistance of Bridge Cranes
,” Ph.D. thesis, Department of Mechanical Engineering, Dokuz Eylül University Faculty of Engineering, Ýzmir..
3.
Çeliktaş
,
M.
, 1998, “
The Calculation of Rotation Angles at the Wheels Produced by Deflection Using Finite Element Method and the Determination of Motion Resistances in Bridge Cranes
,”
AMSE Modell. Measure. Control
,
66
(
1–2
), pp.
S.41
57
.
4.
Kennedy
,
D. J.
,
Albert
,
C.
,
MacCrimmon
,
R. A.
, 2000, “
Inelastic Incremental Analysis of an Industrial Pratt Truss
,”
Eng. Struct.
0141-0296,
22
,
146
154
.
5.
Öz
,
B.
, 2003, “
Computer Aided Design of Bridge Crane Wheel
,” Thesis, Department of Mechanical Engineering, Dokuz Eylül University Faculty of Engineering, Ýzmir.
6.
Nath
,
B.
, 1974,
Fundamentals of Finite Elements for Engineers
,
Athlone Press
, University of London.
7.
Bathe
,
K. J.
, 1982,
Finite Element Procedures In Engineering Analysis
,
Prentice–Hall
,
Englewood Cliffs, NJ
.
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