欢迎访问沈阳真空杂志社 Email Alert    RSS服务

VACUUM ›› 2023, Vol. 60 ›› Issue (5): 37-41.doi: 10.13385/j.cnki.vacuum.2023.05.04

• Thin Film • Previous Articles     Next Articles

The Anti-erosion (corrosion) Properties of TiCr-based Nanocomposite Coatings by Plasma Enhanced Magnetron Sputtering

LI Can-min1, ZHANG Xin-feng1, WEI Rong-hua2   

  1. 1. Anhui Chunyuan Coating Technology Co., Ltd., Hefei 230088, China;
    2. Southwest Research Institute, San Antonio 78238, USA
  • Received:2023-01-15 Online:2023-09-25 Published:2023-09-26

Abstract: Plasma enhanced magnetron sputtering was used to prepare TiCrSiCN and TiCrSiCON nanocomposite coatings on H13 hot working mould steel. Rc indentation method, nanoindentation method, micro-bead blaster, potentiostat were used to detect the adhesion force, toughness, erosion and corrosion resistance of the coatings, respectively. The influences of oxygen addition on the properties of the coatings were emphatically discussed. The results show that the TiCrSiCN and TiCrSiCON nanocomposite coatings have good adhesion to the substrate. The TiCr based nanocomposite coatings could improve the erosion and wear resistance over the uncoated H13 steel by 4~5 times, and the TiCrSiCON coating has better erosion resistance than TiCrSiCN coating. The polarization resistance of TiCrSiCN, TiCrSiCON, and H13 steel decreases sequentially. Oxygen addition is beneficial for improving the adhesion between TiCr based coatings and the substrate, but it will reduce the toughness and the corrosion resistance of the coating.

Key words: PEMS, TiCr based nanocomposite coating, adhesion, toughness, erosion resistance, corrosion resistance

CLC Number:  TB331;TB43

[1] DEMASI-MARCIN J T, GUPTA D K .Protective coatings in the gas turbine engine[J].Surface & Coatings Technology, 1994, 68/69:1-9.
[2] TABAKOFF W. Investigation of coatings at high temperature for use in turbomachinery[J]. Surface & Coatings Technology, 1989, 39/40:97-115.
[3] WOOD R J K. The sand erosion performance of coatings[J]. Materials and Design, 1999, 20(4):179-191.
[4] KRAL M V, DAVIDSON J L, WERT J J.Erosion resistance of diamond coatings[J]. Wear, 1993, 166(1):7-16.
[5] WEI R H, VAJO J J, MATOSSIAN J N,et al.Aspects of plasma-enhanced magnetron-sputtered deposition of hard coatings on cutting tools[J].Surface & Coatings Technology, 2002, 158/159:465-472.
[6] WEI R H.Plasma enhanced magnetron sputter deposition of Ti-Si-C-N based nanocomposite coatings[J].Surface & Coatings Technology, 2008, 203(5-7):538-544.
[7] WEI R H, LANGA E, RINCON C.Deposition of thick nitrides and carbonitrides for sand erosion protection[J]. Surface & Coatings Technology, 2006, 201(7):4453-4459.
[8] WEI R H.Plasma surface engineering research and its practical applications[M]. Kerala, India: Research Signpost, 2008.
[9] EL-RAHMAN A M A, WEI R, RAAIF M, et al. Effect of N2/TMS gas ratio on mechanical and erosion performances of Ti-Si-C-N nanocomposite coatings[J]. Journal of Materials Engineering and Performance, 2020, 29(5):3324-3333
[10] 李灿民. 等离子增强磁控溅射沉积新型纳米复合涂层[D]. 合肥:合肥工业大学,2011.
[11] REEDY M W, EDEN T J, POTTER J K,et al.Erosion performance and characterization of nanolayer(Ti,Cr)N hard coatings for gas turbine engine compressor blade applications[J].Surface & Coatings Technology, 2011,206(2/3) :464-472.
[12] WOLFE D E, GABRIEL B M, REEDY M W.Nanolayer (Ti,Cr)N coatings for hard particle erosion resistance[J].Surface & Coatings Technology, 2011, 205(19):4569-4576.
[13] SHTANSKY D V, KUPTSOV K A, KIRYUKHANTSEV- KORNEEV P V, et al. Comparative investigation of Al- and Cr-doped TiSiCN coatings[J]. Surface & Coatings Technology, 2011, 205(19):4640-4648.
[14] ROSSI S, FEDRIZZI L, LEONI M, et al.(Ti,Cr)N and Ti/TiN PVD coatings on 304 stainless steel substrates: wear-corrosion behaviour[J].Thin Solid Films, 1999, 350(1/2):161-167.
[15] LEE K H, PARK C H, YOON Y S. Wear and corrosion properties of (Ti1-xCrx)N coatings produced by the ion-plating method[J]. Surface & Coatings Technology, 2001, 142-144:971-977.
[16] HEINKE W, LEYLAND A, MATTHEWS A, et al.Evaluation of PVD nitride coatings, using impact, scratch and Rockwell- C adhesion tests[J]. Thin Solid Films,1995, 270(1/2) :431-438.
[17] ASTM International.Standard test method for adhesion strength and mechanical failure modes of ceramic coating by quantitative single point scratch testing: ASTM C1264-22 [S/OL]. https://www.astm.org/c1624-22.html.
[18] MUSIL J, JIROUT M.Toughness of hard nanostructured ceramic thin films[J]. Surface & Coatings Technology, 2007, 201(9-11):5148-5152.
[19] ASTM International.Standard test method for conducting erosion tests by solid particle impingement using gas jets: ASTM G76-18[S/OL]. https://www.astm.org/g0076- 18.html.
[1] LIN Song-sheng, LIU Ruo-yu, TIAN Tian, LÜ Liang, SU Yi-fan, WANG Yun-cheng, SHI Qian, YUN Hai-tao, TANG Peng, ZHENG Cai-feng, YI Chu-shan. Effect of Thickness on Structure and Properties of Cr-CrN-Cr-CrAlN Multilayers [J]. VACUUM, 2023, 60(4): 1-7.
[2] XIN Xian-feng, LIU Lin-gen, LIN Guo-qiang, DONG Chuang, DING Wan-yu, ZHANG Shuang, WANG Qi-zhen, LI Jun, WAN Peng. Preparation and Properties of Zr55Cu30Al10Ni5 Amorphous Thin Films [J]. VACUUM, 2022, 59(5): 1-6.
[3] CHANG Zhen-dong, DENG Zhong-hua, SUN Rong-zhen, MU Ren-de, HU Jiang-wei. Effect of Matrix Surface Microstructure on the Adhesion of PVD Coating [J]. VACUUM, 2022, 59(3): 52-56.
[4] HU Tian-shi, TIAN Xiu-bo, LIU Xiang-li, GONG Chun-zhi. Influence of Incident Energy on the Surface Roughness and Film/Substrate Adhesion Strength of Epitaxially Grown Cr Films:Molecular Dynamics Simulation [J]. VACUUM, 2022, 59(3): 35-40.
[5] CHEN Qu-ping, LIN Song-sheng, LIU Ling-yun, GUO Chao-qian, SHI Qian, WANG Yun-cheng, LÜ Liang, LIU Ruo-yu, YI Chu-shan. Effect of Modulation Structure on Properties of Cr-CrN-Cr-CrAlN Multilayer Films [J]. VACUUM, 2022, 59(3): 29-34.
[6] WU Ying-tong, LI Xiao-min, BAI Rui, WANG Dong-wei, WANG Yu, HUANG Mei-dong. Effects of Extra Biased Electric Field on Structure and Properties of TiN Films Deposited by Arc Ion Plating [J]. VACUUM, 2021, 58(1): 63-66.
[7] HAO Wei-jin, CHEN Rong-fa, CAO Pei, GONG Zi-yu, LI Jing, GENG Hao-ran, WANG Zi-li. Study on Friction and Wear Properties of CrAlNx Coating on Roller Surface [J]. VACUUM, 2020, 57(5): 28-31.
[8] LIU Ling-yun, LIN Song-sheng, WANG Di, LI Feng, DAI Ming-jiang, SHI Qian, WEI Chun-bei. Study on Preparation and Properties of CrAlN Anti-erosion Coating [J]. VACUUM, 2020, 57(2): 40-46.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
辽ICP备06004570号-4
Copyright © VACUUM, All Rights Reserved.
Tel: (024)24134406 24110136 24121929 Fax: (024) 24121929 E-mail: zkzk1964@126.com
Powered by Beijing Magtech Co. Ltd