Using Indentation Test to Evaluate the Properties of Metallic Material with Strain Aging

Jie Tang; Mao Cheng; Guo Gen Huang; Hong Shu; Hui Ting Xu

doi:10.4028/www.scientific.net/AMM.751.131

Paper Titles

The Effect of Elastic Modulus Rate in Stress Controlled Tests on the Modified Jeffrey’s Model for Structured Fluids
p.102

Elastoplasticity 2D Problems: Numerical Applications of the Tikhonov Regularization Method
p.109

Energy Release Rate of Delaminated Piezoelectric Shell Subjected to Electro-Thermo-Mechanical Loadings
p.118

Input Data Determination for Large Strain Simulations
p.124

Using Indentation Test to Evaluate the Properties of Metallic Material with Strain Aging
p.131

Effect of Nanoparticle Additives on Journal Bearing Lubricated with Non-Newtonian Carreau Fluid
p.137

Research on the Damage Identification of Weld Metal Cracking of Metal Structure Based on PVDF
p.143

A Vibro Acoustic Method for Non Destructive Test of Composite Sandwich Structures
p.153

Factors Affecting Thickness of Prosthetic Socket in Thermoforming Fabrication
p.159

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 751Using Indentation Test to Evaluate the Properties...

Using Indentation Test to Evaluate the Properties of Metallic Material with Strain Aging

Abstract:

In this paper, research on a testing method of indentation test proposed by F M Haggag is discussed first, and the experimental testing research on metallic material properties with strain aging is carried out and discussed using indentation test. The authors proposed to use indentation test to measure the properties of metallic materials with strain aging embrittlement based on experimental verification. And it provides a possibility to measure the properties of metallic materials with strain aging using nondestructive testing method.

You might also be interested in these eBooks

Materials Science, Applied Mechanics and Advanced Engineering Research

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 751)

Pages:

131-136

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.751.131

Citation:

Cite this paper

Online since:

April 2015

Authors:

Jie Tang*, Mao Cheng, Guo Gen Huang, Hong Shu, Hui Ting Xu

Keywords:

Indentation Test, Materials Properties, Non-Destructive Test, Strain Aging

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] B.S. Qi, L. Li, J. Lu, et al. Materials for Mechanical Engineering. Harbin: Harbin Institute of Technology Press, 2003, 1-4.

Google Scholar

[2] Q.P. Zhong, Y.J. Tian. Foundation of Failure Analysis. Beijing: China Machine Press, 1989, 2-11.

Google Scholar

[3] J. Tang. Research on the Measurement of Mechanical Properties of Structural Steels and Those Affected by Strain Aging through Automated Ball Indentation Test. Jinan: Shandong University, (2013).

Google Scholar

[4] H.X. Cui, W.Q. Wang, A.J. Li, et al. Failure analysis on the brittle fracture of 20 Steel thick wall and high pressure pipe in an ammonia synthesis unit. Eng Fail Anal, 2010, 17: 1359-1376.

DOI: 10.1016/j.engfailanal.2010.04.002

Google Scholar

[5] K.W. Qian, X.Q. Li, L.G. Xiao, et al. Dynamic strain aging phenomenon in metals and alloy. Journal of Fuzhou University (Natural Science), 2001, 29(6): 8-23.

Google Scholar

[6] G. Yu, Y.J. Li. Effect of strain aging on tenacity of low carbon martensite steel. Ordnance Material Science and Engineering, 1992, 15(7): 6-12.

Google Scholar

[7] J. Tang, W.Q. Wang, M.L. Li, et al. The exploration of evaluation of strain aging embrittlement in metallic materials using indentation test. In: Proceedings of 2011 International Symposium on Structural Integrity. Shanghai: East China University of Science and Technology Press, 2011, 121-126.

Google Scholar

[8] F.M. Haggag. Field indentation microprobe for structural integrity evaluation. US Patent, 4852397, 1989-08-01.

Google Scholar

[9] J. Tang, W.Q. Wang. The application of the Stress-Strain Microprobe technology in pipeline security and detection. In: Proceedings of the 5th International Conference on Oil and Natural Gas Pipeline Safety and the 5th Natural Gas Pipeline Technology Seminar. Langfang Heibei, 2012, 5-9.

Google Scholar

[10] F.M. Haggag, R.K. Nanstad, D.N. Braski. Structural integrity evaluation based on an innovative field indentation microprobe. In: Innovative Approaches to Irradiation Damage and Fracture Analysis. The American Society of Mechanical Engineers PVP, 1989, 101-107.

Google Scholar

[11] F.M. Haggag, K.L. Murty. A novel stress-strain microprobe for nondestructive evaluation of mechanical properties of materials. In: Nondestructive Evaluation and Materials Properties III. The Minerals Metals & Materials Society, 1997, 101-106.

Google Scholar

[12] F.M. Haggag. Indentation Technique Provides Pipeline Integrity Monitoring, Oil Gas J, August 14, 2006, 58-62.

Google Scholar