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| Azevedo, Nuno Monteiro |
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Schlegel, Stephan
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Topics
Publications (10/10 displayed)
- 2023Verhalten von Clinchverbindungen bei Belastung mit hohen Kurzzeitströmen
- 2023Investigations on the Heat Transfer between an Electrical Heating Rod and a Rail for Heated Railway Switch Pointscitations
- 2023Diffusion of Silver in Liquid Tin Depending on the Temperature Gradient Along the Solder in Low-Voltage Power Fuses at Overcurrents
- 2022Self-lubricating coatings for high-current connectors
- 2022Electrical Contacting of Aluminum Bus Bars Using Clinching and Functional Elements †citations
- 2022Long-Term Behavior of Clinched Electrical Contactscitations
- 2022Investigations on the influence of mechanical and thermal load on the clamping force of heating rod clamps
- 2021Synthesis and structural analysis of intermetallic compounds in electrical connectionscitations
- 2017Effect of dispersoids on long-term stable electrical aluminium connectionscitations
- 2011Langzeitverhalten von Schraubenverbindungen mit Stromschienen aus Reinkupfer in der Elektroenergietechnik unter besonderer Berücksichtigung der Temperatur
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document
Investigations on the influence of mechanical and thermal load on the clamping force of heating rod clamps
Abstract
During wintertime, switch point heating systems are utilized for railway switch points. They are aiming to prevent snow and ice from accumulating between the moveable components of a switch point, and thus, maintain a faultless setting of the switch point. Electrical heating rods are a frequently used application of switch point heating systems. Clamps made of spring steel often realize the mounting of the heating rod to the rail. The clamps are set in a common distance of 30 cm along the rail. Considering a section reaching from the middle of one clamp along the rail to the middle of the consecutive clamp, previous investigations showed that significant higher temperatures occur at the heating rod in the middle of this section than at its ends. This suggests that the heat transfer between heating rod and rail is higher at the clamps than in between. Consequently, there is a correlation between the contact force of heating rod and rail, and the heat transfer.<br/>Another assumption is that the presence of mechanical and thermal load can reduce the contact force provided by the clamps over time. In order to evaluate these correlations, new clamps were mechanically loaded by bending and additionally heated to 150 °C or 200 °C. The results show that considering a stress time up to 2000 h the thermal load for itself has no significant influence on the clamping force. The mechanical load, however, can decrease the clamping force by 7 % and the combination of mechanical and thermal load can decrease it by 13 %. This article explains the experimental setup for this investigation and the causes that lead to the reduction of the clamping force. <br/>