The Method to Obtain J<sub>R</sub>- Curve by Continuous Ball Indentation Method-Reference-Cited by-同舟云学术

The Method to Obtain J_R- Curve by Continuous Ball Indentation Method

Published:2019-03 Issue: Volume:795 Page:432-438
ISSN:1662-9795
Container-title:Key Engineering Materials
language:
Short-container-title:KEM

Author:

Zhang Jia Ming¹,Guan Kai Shu¹,Wang Qiong Qi¹,Fan Si Ning¹,Chen Guo Yao¹

Affiliation:

1. East China University of Science and Technology

Abstract

JR-curve is one of an important index to characterize the fracture properties of metal materials. It is usually determined by multi-sample unloading method and single-sample unloading compliance method recommended by standard methods; In consideration of the similarity between the continuous ball indentation method and the single-sample unloading compliance method, The JR-curve is obtained by using the empirical correlation between effective elastic modulus ED of the continuous ball indentation and the unloading compliance C for single simple in this article. The calculation conducted by the correlation formula of the extension length of crack with unloading compliance C. However, results indicate that the fracture toughness J0.05 obtained by empirical correlation of load-depth curve of continuous spherical indentation is still quite different from those given by the standard test.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://www.scientific.net/KEM.795.432.pdf

Reference10 articles.

1. Haggag F.M, Field indentation microprobe for structural integrity evaluation: US, 4852397 P, (1989).

2. Haggag F.M., Nanstad R.K., Hutton J.T., et al. Use of automated ball indentation to measure flow properties and estimate fracture toughness in metallic materials A, Braun A.A., Ashbaugh N.E., Smith F.M.. Applications of Automation Technology to Fatigue and Fracture Testing C, American Society for Testing and Materials, (1990).

3. Haggag F.M., Nanstad R.K., Braski D.N.. Structural integrity evaluation based on an innovative field indentation microprobe A. Marriott D.L., Mager T.R. Bamford W.H.. Innovative Approaches to Irradiation Damage and Fracture Analysis: Proceedings of the ASME Pressure Vessels & Piping Conference C, The American Society of Mechanical Engineers, (1989).

4. Hao Han, Zhiwen Wang, Kaishu Guan. Determination of strength properties of metal materials by small punch test technology, J. Pressure Vessels. (2004) 21 (10) 14-17.

5. ASTM E1820-09 Standard Test Method for Measurement of Fracture Toughness.