Vol. 16, No. 4, 2021

Download this article
Download this article For screen
For printing
Recent Issues

Volume 16
Issue 4, 389–594
Issue 3, 237–388
Issue 2, 105–235
Issue 1, 1–104

Volume 15, 5 issues

Volume 14, 5 issues

Volume 13, 5 issues

Volume 12, 5 issues

Volume 11, 5 issues

Volume 10, 5 issues

Volume 9, 5 issues

Volume 8, 8 issues

Volume 7, 10 issues

Volume 6, 9 issues

Volume 5, 6 issues

Volume 4, 10 issues

Volume 3, 10 issues

Volume 2, 10 issues

Volume 1, 8 issues

The Journal
About the Journal
Editorial Board
Submission Guidelines
Submission Form
Policies for Authors
Ethics Statement
ISSN: 1559-3959
Author Index
To Appear
Other MSP Journals
This article is available for purchase or by subscription. See below.
Analysis on the interfacial mechanics of microscratching test for DLC-G95Cr18 film-substrate system

Lixia Ying, Chongyang Nie, Jianjun Yao, Le Gu, Yang Ge and Lining Liu

Vol. 16 (2021), No. 4, 407–418

Diamond-like carbon (DLC) is one of the rising film materials in the aerospace, automobile and valve applications, for its inherent and unique properties in anti-wear and low friction. In this paper, an interfacial mechanics model of film-substrate system was established to evaluate the stresses and deformations at the interface of DLC-G95Cr18 film-substrate system accurately. A microscratching test was used to measure the load-carrying capacity of the DLC-bearing steel by ball on disc mode. The failure of this film-substrate system was determined using the acoustic emission and friction force signal simultaneously. Then, the interfacial stresses and deformations were calculated by using the established model and the design algorithm. Both of the experimental and computational results showed that hard DLC film would experience a failure process of elastic-plastic deformation, which caused by the interfacial stresses and initial cracks. During the brittle fracture of DLC film, shear stresses were the main cause of the initial cracks. And the evolution of stress and deformation in the process of microscratching and the critical failure state under its critical load were analyzed. These result could be utilized in the analysis of the load-carrying capacity and the failure mechanism of DLC-G95Cr18 film-substrate system.

PDF Access Denied

We have not been able to recognize your IP address as that of a subscriber to this journal.
Online access to the content of recent issues is by subscription, or purchase of single articles.

Please contact your institution's librarian suggesting a subscription, for example by using our journal-recom­mendation form. Or, visit our subscription page for instructions on purchasing a subscription.

You may also contact us at contact@msp.org
or by using our contact form.

Or, you may purchase this single article for USD 45.00:

DLC, microscratching test, interfacial mechanics, film-substrate system
Received: 9 September 2020
Revised: 22 February 2021
Accepted: 17 March 2021
Published: 26 September 2021
Lixia Ying
Harbin Engineering University
Harbin, 150001
Chongyang Nie
Harbin Engineering University
Harbin, 150001
Jianjun Yao
Harbin Engineering University
Harbin, 150001
Le Gu
Mechanical Building
Harbin Institute of Technology
Harbin, 150001
Yang Ge
Harbin Engineering University
Harbin, 150001
Lining Liu
Harbin Engineering University
Harbin, 150001