Anomalous evaporation behavior of ZnO powder milled mechanically under high-energy conditions

A. M. Glushenkov; H. Z. Zhang; Y. Chen

doi:10.1016/j.matlet.2007.06.039

Anomalous evaporation behavior of ZnO powder milled mechanically under high-energy conditions

A. M. Glushenkov, H. Z. Zhang, Y. Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

ZnO powder showed anomalous evaporation behavior after its mechanical milling treatment under high-energy conditions. The amount of generated vapor is about 10 times higher in the first 15 min of annealing at 1300 °C than that of unmilled ZnO powders. The strong ball impacts are responsible for the greatly enhanced evaporation ability. Low-energy ball milling involving shearing actions and rare weak impacts leads only to a small evaporation rate enhancement. The possible explanation of the high evaporation rate of the heavily milled material is the existence of large fraction of weakly bonded atoms in grain boundaries, surface defects and strained areas.

Original language	English
Pages (from-to)	715-718
Number of pages	4
Journal	Materials Letters
Volume	62
Issue number	4-5
DOIs	https://doi.org/10.1016/j.matlet.2007.06.039
Publication status	Published - 29 Feb 2008

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10.1016/j.matlet.2007.06.039

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title = "Anomalous evaporation behavior of ZnO powder milled mechanically under high-energy conditions",

abstract = "ZnO powder showed anomalous evaporation behavior after its mechanical milling treatment under high-energy conditions. The amount of generated vapor is about 10 times higher in the first 15 min of annealing at 1300 °C than that of unmilled ZnO powders. The strong ball impacts are responsible for the greatly enhanced evaporation ability. Low-energy ball milling involving shearing actions and rare weak impacts leads only to a small evaporation rate enhancement. The possible explanation of the high evaporation rate of the heavily milled material is the existence of large fraction of weakly bonded atoms in grain boundaries, surface defects and strained areas.",

keywords = "Ball milling, Crystal structure, Defects, Evaporation, Zinc oxide",

author = "Glushenkov, {A. M.} and Zhang, {H. Z.} and Y. Chen",

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T1 - Anomalous evaporation behavior of ZnO powder milled mechanically under high-energy conditions

AU - Glushenkov, A. M.

AU - Zhang, H. Z.

AU - Chen, Y.

PY - 2008/2/29

Y1 - 2008/2/29

N2 - ZnO powder showed anomalous evaporation behavior after its mechanical milling treatment under high-energy conditions. The amount of generated vapor is about 10 times higher in the first 15 min of annealing at 1300 °C than that of unmilled ZnO powders. The strong ball impacts are responsible for the greatly enhanced evaporation ability. Low-energy ball milling involving shearing actions and rare weak impacts leads only to a small evaporation rate enhancement. The possible explanation of the high evaporation rate of the heavily milled material is the existence of large fraction of weakly bonded atoms in grain boundaries, surface defects and strained areas.

AB - ZnO powder showed anomalous evaporation behavior after its mechanical milling treatment under high-energy conditions. The amount of generated vapor is about 10 times higher in the first 15 min of annealing at 1300 °C than that of unmilled ZnO powders. The strong ball impacts are responsible for the greatly enhanced evaporation ability. Low-energy ball milling involving shearing actions and rare weak impacts leads only to a small evaporation rate enhancement. The possible explanation of the high evaporation rate of the heavily milled material is the existence of large fraction of weakly bonded atoms in grain boundaries, surface defects and strained areas.

KW - Ball milling

KW - Crystal structure

KW - Defects

KW - Evaporation

KW - Zinc oxide

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DO - 10.1016/j.matlet.2007.06.039

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VL - 62

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JO - Materials Letters

JF - Materials Letters

IS - 4-5

ER -

Anomalous evaporation behavior of ZnO powder milled mechanically under high-energy conditions

Abstract

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