Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications

In bearing applications, the development of new materials has become a focus of scientific research in order to make bearing systems smaller and rotate more accurately. Bulk metallic glass (BMG), which has high strength, stiffness and resistance to corrosion, is becoming a promising candidate for be...
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Autor*in:	Dong-Hui Wang [verfasserIn] Sheng-Hui Xie [verfasserIn] Hai-Peng Yang [verfasserIn] Hai-Xia Qian [verfasserIn] Xie-Rong Zeng [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2018

Schlagwörter:	bulk metallic glass wear resistance bearing GCr15

Übergeordnetes Werk:	In: Metals - MDPI AG, 2012, 8(2018), 12, p 1005
Übergeordnetes Werk:	volume:8 ; year:2018 ; number:12, p 1005

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/met8121005

Katalog-ID:	DOAJ054157129

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language	English
source	In Metals 8(2018), 12, p 1005 volume:8 year:2018 number:12, p 1005
sourceStr	In Metals 8(2018), 12, p 1005 volume:8 year:2018 number:12, p 1005
format_phy_str_mv	Article
institution	findex.gbv.de
topic_facet	bulk metallic glass wear resistance bearing GCr15 Mining engineering. Metallurgy
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container_title	Metals
authorswithroles_txt_mv	Dong-Hui Wang @@aut@@ Sheng-Hui Xie @@aut@@ Hai-Peng Yang @@aut@@ Hai-Xia Qian @@aut@@ Xie-Rong Zeng @@aut@@
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callnumber-first	T - Technology
author	Dong-Hui Wang
spellingShingle	Dong-Hui Wang misc TN1-997 misc bulk metallic glass misc wear resistance misc bearing misc GCr15 misc Mining engineering. Metallurgy Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications
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topic_title	TN1-997 Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications bulk metallic glass wear resistance bearing GCr15
topic	misc TN1-997 misc bulk metallic glass misc wear resistance misc bearing misc GCr15 misc Mining engineering. Metallurgy
topic_unstemmed	misc TN1-997 misc bulk metallic glass misc wear resistance misc bearing misc GCr15 misc Mining engineering. Metallurgy
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title	Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications
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title_full	Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications
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title_sort	wear behaviors of three typical bulk metallic glasses in bearing applications
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title_auth	Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications
abstract	In bearing applications, the development of new materials has become a focus of scientific research in order to make bearing systems smaller and rotate more accurately. Bulk metallic glass (BMG), which has high strength, stiffness and resistance to corrosion, is becoming a promising candidate for bearing and shaft materials. When used as shafts, the friction feature of BMG needs to be evaluated comprehensively. In this work, the friction and wear properties of Ni-based, Zr-based, and Cu-based BMGs sliding against brass lubricated with lithium grease were investigated, using traditional bearing materials (GCr15 steel) as comparison. The results showed that the wear mechanism of the BMGs was primarily abrasive, supplemented by an adhesive wear behavior when sliding against brass plates, just like GCr15 steel. The wear loss of the friction pair (brass plates) increases when the applied normal load increases and the sliding speed decreases. Compared with GCr15 steel, BMGs exhibit better friction performance at low sliding speed, and Ni-based BMG always exhibits a smaller wear loss, especially under large load and low sliding speed. The wear loss of brass plates against Ni-based BMG pin is 24.3% lower than that against GCr15 steel under an applied load of 10 kg, which indicates that Ni-based BMG is an attractive bearing and shaft material for industrial application.
abstractGer	In bearing applications, the development of new materials has become a focus of scientific research in order to make bearing systems smaller and rotate more accurately. Bulk metallic glass (BMG), which has high strength, stiffness and resistance to corrosion, is becoming a promising candidate for bearing and shaft materials. When used as shafts, the friction feature of BMG needs to be evaluated comprehensively. In this work, the friction and wear properties of Ni-based, Zr-based, and Cu-based BMGs sliding against brass lubricated with lithium grease were investigated, using traditional bearing materials (GCr15 steel) as comparison. The results showed that the wear mechanism of the BMGs was primarily abrasive, supplemented by an adhesive wear behavior when sliding against brass plates, just like GCr15 steel. The wear loss of the friction pair (brass plates) increases when the applied normal load increases and the sliding speed decreases. Compared with GCr15 steel, BMGs exhibit better friction performance at low sliding speed, and Ni-based BMG always exhibits a smaller wear loss, especially under large load and low sliding speed. The wear loss of brass plates against Ni-based BMG pin is 24.3% lower than that against GCr15 steel under an applied load of 10 kg, which indicates that Ni-based BMG is an attractive bearing and shaft material for industrial application.
abstract_unstemmed	In bearing applications, the development of new materials has become a focus of scientific research in order to make bearing systems smaller and rotate more accurately. Bulk metallic glass (BMG), which has high strength, stiffness and resistance to corrosion, is becoming a promising candidate for bearing and shaft materials. When used as shafts, the friction feature of BMG needs to be evaluated comprehensively. In this work, the friction and wear properties of Ni-based, Zr-based, and Cu-based BMGs sliding against brass lubricated with lithium grease were investigated, using traditional bearing materials (GCr15 steel) as comparison. The results showed that the wear mechanism of the BMGs was primarily abrasive, supplemented by an adhesive wear behavior when sliding against brass plates, just like GCr15 steel. The wear loss of the friction pair (brass plates) increases when the applied normal load increases and the sliding speed decreases. Compared with GCr15 steel, BMGs exhibit better friction performance at low sliding speed, and Ni-based BMG always exhibits a smaller wear loss, especially under large load and low sliding speed. The wear loss of brass plates against Ni-based BMG pin is 24.3% lower than that against GCr15 steel under an applied load of 10 kg, which indicates that Ni-based BMG is an attractive bearing and shaft material for industrial application.
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title_short	Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications
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Wear Behaviors of Three Typical Bulk Metallic Glasses in Bearing Applications

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