@misc{schtte_sliding_wear_2020, 
author={Schütte, M., Ehrich, J., Roos, A., Linsler, D., Hanke, S.},
title={Sliding wear of Si-rich Al-base alloys in wrought state after Friction Surfacing},
year={2020},
howpublished = {conference lecture: Virtual;},
abstract = {At 14.6 % Si, large primary Si phases are present in both material states. Here, higher coefficients of friction were observed (≈ 0.1), than for the other two materials (≈ 0.04). At the same time, the wear volume is lowest for the high-Si alloy, and shows no difference between the cast and FS-processed state. Microscopy shows fracturing of Si phases as well as deformation and cracking in the adjacent Al-rich matrix. Spheroidization of the Si phases during FS in the two hypoeutectic alloys (6.6 and 10.4% Si) leads to a reduction in wear by more than 50 % compared to the cast state. This study shows that applying wear resistant coatings from Si-rich Al-base alloys by FS is feasible, with comparable wear behaviour for hypereutectic and improved wear resistance for hypoeutectic alloys.},
note = {Schütte, M.; Ehrich, J.; Roos, A.; Linsler, D.; Hanke, S.: Sliding wear of Si-rich Al-base alloys in wrought state after Friction Surfacing. Materials Science and Engineering Congress (MSE) 2020. Virtual, 2020.}}