X-Ray Diffraction Analysis of Mechanically Milled Alumina and Zirconia Powders

S. Renold Elsen; K. Jegadeesan; J. Ronald Aseer

doi:10.4028/www.scientific.net/NHC.17.96

Paper Titles

Computational Study of Au Doped Cu Nano Alloy Clusters
p.62

Study on the Effect of Ball Milling on Dielectric and Thermal Behaviour of High Performance Polymer Composites
p.72

Investigations on Hydrothermally Prepared Tin Mono-Sulphide Nanoparticles
p.79

Synthesis and Characterization of Calcium Titanate and Calcium Zirconate Compound Powders by Molten Salt Method
p.88

X-Ray Diffraction Analysis of Mechanically Milled Alumina and Zirconia Powders
p.96

Structural and Morphological Properties of Ag and In Co-Doped ZnO Nanoparticles Synthesized by Sol-Gel Method
p.101

Electrochemical Performance of Sol-Gel Derived Hexagonal LiMnBO₃ Cathode Material for Lithium-Ion Batteries
p.106

A Study on Composition Dependent Electrocatalytic Behaviour of Electrodeposited Ni-Mo Alloy
p.113

Facile Approach for Synthesis of GO/ZnO Nanocomposite for Highly Efficient Photocatalytic Degradation of Organic Dyes under Visible Light
p.121

HomeNano Hybrids and CompositesNano Hybrids and Composites Vol. 17X-Ray Diffraction Analysis of Mechanically Milled...

X-Ray Diffraction Analysis of Mechanically Milled Alumina and Zirconia Powders

Abstract:

Ball milling is one of the top down approach used for reducing the particle size of bulk powder. Especially high energy ball milling is done to reduce the particle size to nanodomain. The Zirconia Toughened Alumina nanocomposite has diverged application in different engineering fields. The alumina and zirconia powders used for fabrication of Zirconia Toughened Alumina composite are subjected for ball milling. The effect of ball milling on the powders is reported on the work. The characterisation of the powder samples were done by X-ray diffraction. This was done to evaluate the effect of the starting material on the final product. Using the Scherer’s formula, Williamson-Hall analysis the change in crystallite size and strain were analysed.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Nano Hybrids and Composites (Volume 17)

Pages:

96-100

DOI:

https://doi.org/10.4028/www.scientific.net/NHC.17.96

Citation:

Cite this paper

Online since:

August 2017

Authors:

S. Renold Elsen, K. Jegadeesan, J. Ronald Aseer*

Keywords:

Crystal Structure, High Energy Ball Milling, Nano Structured Materials, Scherer’s Formula, Williamson-Hall Analysis

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

* - Corresponding Author

References

[1] X. Liu, F. Yuan, and Y. Wei, Appl. Surf. Eng. 279, (2013) 159–166.

Google Scholar

[2] A.S.A. Chinelatto, E.M.J.A. Pallone, V. Trombini, and R. Tomasi, Ceram. Int. 34, 8 (2008) 2121-2127.

Google Scholar

[3] P. Li, Shengqi Xi, and J. Zhou, Ceram. Int. 35, 1 (2009) 247-251.

Google Scholar

[4] A. Eskandari, M. Aminzare, S.H. Aboutalebi, S.K. Sadrnezhaad, Ceram. Int. 38, 4 (2012) 2627-2632.

Google Scholar

[5] J.S. Forrester, H.J. Goodshaw, E.H. Kisi, G.J. Suaning, and J.S. Zobec, J. Aust. Ceram. Soc. 44 1, (2008) 47-52.

Google Scholar

[6] A. Sekulic, K. Furic, and M. Stubicar. J. Mol. Struct. 410, (1997) 275-279.

Google Scholar

[7] Y. Murase and E. Kato. J. Am. Ceram. Soc. 62, 9-10 (1979) 527-527.

Google Scholar

[8] M. Ullah, M.E. Ali and S.B.A. Hamid, Rev. Adv. Mater. Sci. 37(2014) 1-14.

Google Scholar

[9] M. Joshi, A. Bhattacharyya and S.W. Ali. Indian J. Fibre Text. Res. 33 3, (2008) 304–317.

Google Scholar

[10] W. T Jiang, D. R Peacor, P. Arkai, M. Toth, and J. W Kim, J. Metamorph. Geol. 15 2, (1997) 267–281.

Google Scholar

[11] G.A. Dorofeev, A.N. Streletskii, I.V. Povstugar, A.V. Protasov, and E.P. Elsukov, Colloid J. 74 6, (2012) 675–685.

DOI: 10.1134/s1061933x12060051

Google Scholar

[12] R. Snyder and R. Jenkins, Introduction to X-ray powder Diﬀractometry. Wiley-Interscience, (2012).

Google Scholar

[13] S.R. Stock and B.D. Cullity, Elements of x-ray diﬀraction. Prentice Hall, Upper Saddle River, New Jersey, (2001).

Google Scholar

[14] V. D Mote, Y. Purushotham, and B.N. Dole, J. Theo. Appl. Phys. 6 1, (2012) 1–8.

Google Scholar