Structure and Properties of Diamond-like Carbon Films on Stainless Steel

doi:10.11901/1005.3093.2013.958

Chinese Journal of Materials Research

2014, Vol. 28

Issue (9): 697-702 DOI: 10.11901/1005.3093.2013.958

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Structure and Properties of Diamond-like Carbon Films on Stainless Steel

Lili SUN¹,Dong ZHANG¹,Rende CHEN¹,Peiling KE¹,Hui XU^1,²,Aiying WANG^1,^**(

)

1. Key Laboratory of Marine Materials and Related Technologies, Zhejiang Key Laboratory of Marine Materials and Protective Technologies, Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo 315201
2. Ningbo Dun Ge Coating Technology Co. Ltd., Ningbo 315800

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Lili SUN,Dong ZHANG,Rende CHEN,Peiling KE,Hui XU,Aiying WANG. Structure and Properties of Diamond-like Carbon Films on Stainless Steel. Chinese Journal of Materials Research, 2014, 28(9): 697-702.

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Abstract

Diamond-like carbon films were synthesized on stainless steel and silicon substrates by a linear ion beam combined with sputtering deposition system. Effect of substrate negative bias and the buffer layers on the microstructure and properties of DLC films was investigated. The results showed that,with the same buffer layer, the number of sp³bond in the films decreased when the bias voltage changed from -100 V to -200 V, but the hardness and the adhesion strength were enhanced because of a better compactness of the films; on the other hand, with the increasing thickness and number of deposited layers, the number of sp³ bond in the films reduced when the bias voltage was -200 V, meanwhile the hardness of the multilayered film and the thickness of the buffer layer decreased together; the number of sp³ bond in the film and hardness of the DLC films prepared at the bias voltage of -100 V were little affected by the thickness of the buffer layer and number of deposited layers; among others a DLC film of 4.92 μm thick prepared on a 1.7 μm thick buffer layer of Cr/CrC showed the best comprehensive properties, of which the hardness is 29.4 GPa and friction coefficient is less than 0.1.

Key words: inorganic non-metallic materials DLC films stainless steel adhesion strength hardness

Received: 17 December 2013

Fund: *Supported by Major Science and Technology Projects of Zhejiang Province No.2010C13025-1 and Ningbo Think-tank Poineering Project No.201301B7005008.

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	Lili SUN
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	Peiling KE
	Hui XU
	Aiying WANG

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https://www.cjmr.org/EN/10.11901/1005.3093.2013.958 OR https://www.cjmr.org/EN/Y2014/V28/I9/697

Fig.1 Schematic of deposition system for DLC films

Table 1 Parameters of the deposited films

Fig.2 Thickness of DLC films with different deposition parameters

Fig.3 SEM cross-sectional images of the deposited DLC films with the substrate bias of -100 V (a-c) and -200 V (d-f)

Fig.4 Representative Raman spectrum of DLC films with different deposition parameters and Gaussian fitting (a) Raman spectrum, (b) G peak position, (b) full width at half maximum of G peak, (d) I_D/I_G

Fig.5 Scratching images of DLC films with different deposition parameters

Fig.6 Elastic modulus of DLC films with different deposition parameters

Fig.7 Hardness of DLC films with different deposition parameters

Fig.8 Hardness of the deposited buffer layers

Fig.9 Friction coefficient of DLC films with different deposition parameters

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