MoS2 coatings for the narrow support elements of the W-7X nonplanar coils

Abstract: WENDELSTEIN 7-X (W7-X) is a stellarator presently under construction and assembly in Greifswald, Germany. The superconducting magnet system of W7-X consists of planar and non planar coils. The electromagnetic forces on the superconducting magnet are supported by backing of all coils against a central ring and by wedging among coil casings through "Narrow Support Elements" (NSE) that have to satisfy very specific requirements. Anti friction MoS 2 coatings have been developed and tested at room and cryogenic tem… Show more

“…As an example, Figure 5 shows a friction plot for a PVD-MoS 2 coating in high vacuum. The coating is similar to the one used in the Wendelstein 7-X fusion experiment [5]. The peaks to negative direction are caused by test stops and restarts.…”

“…Because frictional heat and mechanical shocks are able to initiate a normal conducting zone, a lubricant must be employed that guarantees low friction sliding without stick-slip at these stick-slip at these supports. Tests have shown that only MoS2 coatings without any additions are able to meet such requirements [5].…”

“…A similar concept has been used by Koch et al [5] for coatings developed for support elements in the superconducting magnet system of the WENDELSTEIN W7-X fusion experiment. They are able to withstand extreme operational conditions such as temperatures as low as 5 K in combination with high vacuum.…”

“…By using a PVD process, deposition parameters can be optimized to gain coatings with a more textured structure orienting the (002) basal planes parallel to the substrate surface [9]. A similar concept has been used by Koch et al [5] for coatings developed for support elements in the superconducting magnet system of the WENDELSTEIN W7-X fusion experiment. They are able to withstand extreme operational conditions such as temperatures as low as 5 K in combination with high vacuum.…”

Tribological Performance of MoS2 Coatings in Various Environments

“…As an example, Figure 5 shows a friction plot for a PVD-MoS 2 coating in high vacuum. The coating is similar to the one used in the Wendelstein 7-X fusion experiment [5]. The peaks to negative direction are caused by test stops and restarts.…”

“…Because frictional heat and mechanical shocks are able to initiate a normal conducting zone, a lubricant must be employed that guarantees low friction sliding without stick-slip at these stick-slip at these supports. Tests have shown that only MoS2 coatings without any additions are able to meet such requirements [5].…”

“…A similar concept has been used by Koch et al [5] for coatings developed for support elements in the superconducting magnet system of the WENDELSTEIN W7-X fusion experiment. They are able to withstand extreme operational conditions such as temperatures as low as 5 K in combination with high vacuum.…”

“…By using a PVD process, deposition parameters can be optimized to gain coatings with a more textured structure orienting the (002) basal planes parallel to the substrate surface [9]. A similar concept has been used by Koch et al [5] for coatings developed for support elements in the superconducting magnet system of the WENDELSTEIN W7-X fusion experiment. They are able to withstand extreme operational conditions such as temperatures as low as 5 K in combination with high vacuum.…”

Tribological Performance of MoS2 Coatings in Various Environments

“…The main part of a NSE is an aluminium bronze pad, PVD coated on its spherical surface with MoS 2 [3]. During energization of the magnet system it slides against the opposite plane stainless-steel coil housing which is sprayed with MoS 2 .…”

Full-scale friction test on tilted sliding bearings for Wendelstein 7-X coils

Effects of deposition parameters on hardness and lubrication properties of thin MoS₂ films