Voltage assisted asymmetric nanoscale wear on ultra-smooth diamond like carbon thin films at high sliding speeds

The understanding of tribo- and electro-chemical phenomenons on the molecular level at a sliding interface is a field of growing interest. Fundamental chemical and physical insights of sliding surfaces are crucial for understanding wear at an interface, particularly for nano or micro scale devices o...

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Veröffentlicht in:	Scientific reports 2016-05, Vol.6 (1), p.25439-25439, Article 25439
Hauptverfasser:	Rajauria, Sukumar, Schreck, Erhard, Marchon, Bruno
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Sprache:	eng
Schlagworte:	142/126 142/136 639/301/1005/1008 639/301/357/918/1053 Carbon dioxide Chemical reactions Disk drives Electrochemistry Fuel cells Glass substrates Hard disks Humanities and Social Sciences Interfaces multidisciplinary Science Thin films Voltage
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creator	Rajauria, Sukumar Schreck, Erhard Marchon, Bruno
description	The understanding of tribo- and electro-chemical phenomenons on the molecular level at a sliding interface is a field of growing interest. Fundamental chemical and physical insights of sliding surfaces are crucial for understanding wear at an interface, particularly for nano or micro scale devices operating at high sliding speeds. A complete investigation of the electrochemical effects on high sliding speed interfaces requires a precise monitoring of both the associated wear and surface chemical reactions at the interface. Here, we demonstrate that head-disk interface inside a commercial magnetic storage hard disk drive provides a unique system for such studies. The results obtained shows that the voltage assisted electrochemical wear lead to asymmetric wear on either side of sliding interface.
doi_str_mv	10.1038/srep25439
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subjects	142/126 142/136 639/301/1005/1008 639/301/357/918/1053 Carbon dioxide Chemical reactions Disk drives Electrochemistry Fuel cells Glass substrates Hard disks Humanities and Social Sciences Interfaces multidisciplinary Science Thin films Voltage
title	Voltage assisted asymmetric nanoscale wear on ultra-smooth diamond like carbon thin films at high sliding speeds
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