Volkan Parlaktaş scite author profile

Universal cardan joints are widely used in drivetrains of rolling mills for steel and aluminum making, as well as for non ferrous alloy industry. Working conditions are extremely tough due to high alternating or pulsating rolling torques in the roughing stands and high torques and speeds in the finishing stands. Overloads and lubrication along with oxide and slag are also critical issues that contribute to create severe working conditions. For a constant and reliable power transmission rolling mills performance and uptime rely on Universal cardan Joints which are the most critical equipment of the drivetrain. Fatigue assessment of the most important components of the Universal cardan Joint is therefore definitely vital for the mill in order to avoid failures and consequently downtimes. Considering the component's dimensions and weight and in addition the time needed in order to reproduce full scale tests, a new approach to study the Universal cardan joint's main components fatigue behavior has been investigated. It consists in reproducing the local stress condition of the main joint components on small scale specimens that can be tested by conventional laboratory fatigue machines. The aim of this study is to analyze the most critical stress concentration areas in the universal cardan joints highlighting how a universal cardan joint Wöhler curve can be determined through laboratory tests of small scale specimens.

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Steel compliant Cardan universal joint

Tanık

Parlaktaş

Tanık

et al. 2015

Mechanism and Machine Theory

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Design of a very light L7e electric vehicle prototype

Tanık

Parlaktaş

2015

Int.J Automot. Technol.

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Spatial compliant constant-force mechanism

Parlaktaş¹

2013

Mechanism and Machine Theory

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