Anelastic behavior of plasma-sprayed zirconia coatings

Yajie Liu; Toshio Nakamura; Gopal Dwivedi; Alfredo Valarezo; Sanjay Sampath

doi:10.1111/j.1551-2916.2008.02789.x

Anelastic behavior of plasma-sprayed zirconia coatings

Yajie Liu
, Toshio Nakamura^*
, Gopal Dwivedi
, Alfredo Valarezo
, Sanjay Sampath

^*Corresponding author for this work

Stony Brook University
Novellus System Inc.

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

65 Scopus citations

Abstract

Low-temperature thermal cycling of plasma-sprayed zirconia coatings reveals unique mechanical responses in their curvature measurements, namely nonlinear and cyclic hysteresis, collectively termed as anelastic. These features arise from the inherent layered, porous, and cracked morphology of thermal-sprayed ceramic materials. In this paper, the mechanisms of anelasticity are characterized by crack closure and frictional sliding models, and stress-strain relations of various thermal-sprayed zirconia coatings were determined via an inverse analysis procedure. These results demonstrate process conditions such as powder morphology and spray parameters significantly influence the mechanical behaviors of coatings. The unique anelastic responses can be used as valuable parameters in identifying coating quality as well as process reliability in manufacturing.

Original language	English
Pages (from-to)	4036-4043
Number of pages	8
Journal	Journal of the American Ceramic Society
Volume	91
Issue number	12
DOIs	https://doi.org/10.1111/j.1551-2916.2008.02789.x
State	Published - Dec 2008
Externally published	Yes

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abstract = "Low-temperature thermal cycling of plasma-sprayed zirconia coatings reveals unique mechanical responses in their curvature measurements, namely nonlinear and cyclic hysteresis, collectively termed as anelastic. These features arise from the inherent layered, porous, and cracked morphology of thermal-sprayed ceramic materials. In this paper, the mechanisms of anelasticity are characterized by crack closure and frictional sliding models, and stress-strain relations of various thermal-sprayed zirconia coatings were determined via an inverse analysis procedure. These results demonstrate process conditions such as powder morphology and spray parameters significantly influence the mechanical behaviors of coatings. The unique anelastic responses can be used as valuable parameters in identifying coating quality as well as process reliability in manufacturing.",

author = "Yajie Liu and Toshio Nakamura and Gopal Dwivedi and Alfredo Valarezo and Sanjay Sampath",

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AU - Liu, Yajie

AU - Nakamura, Toshio

AU - Dwivedi, Gopal

AU - Valarezo, Alfredo

AU - Sampath, Sanjay

PY - 2008/12

Y1 - 2008/12

N2 - Low-temperature thermal cycling of plasma-sprayed zirconia coatings reveals unique mechanical responses in their curvature measurements, namely nonlinear and cyclic hysteresis, collectively termed as anelastic. These features arise from the inherent layered, porous, and cracked morphology of thermal-sprayed ceramic materials. In this paper, the mechanisms of anelasticity are characterized by crack closure and frictional sliding models, and stress-strain relations of various thermal-sprayed zirconia coatings were determined via an inverse analysis procedure. These results demonstrate process conditions such as powder morphology and spray parameters significantly influence the mechanical behaviors of coatings. The unique anelastic responses can be used as valuable parameters in identifying coating quality as well as process reliability in manufacturing.

AB - Low-temperature thermal cycling of plasma-sprayed zirconia coatings reveals unique mechanical responses in their curvature measurements, namely nonlinear and cyclic hysteresis, collectively termed as anelastic. These features arise from the inherent layered, porous, and cracked morphology of thermal-sprayed ceramic materials. In this paper, the mechanisms of anelasticity are characterized by crack closure and frictional sliding models, and stress-strain relations of various thermal-sprayed zirconia coatings were determined via an inverse analysis procedure. These results demonstrate process conditions such as powder morphology and spray parameters significantly influence the mechanical behaviors of coatings. The unique anelastic responses can be used as valuable parameters in identifying coating quality as well as process reliability in manufacturing.

UR - https://www.scopus.com/pages/publications/57649237620

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EP - 4043

JO - Journal of the American Ceramic Society

JF - Journal of the American Ceramic Society

IS - 12

ER -

Anelastic behavior of plasma-sprayed zirconia coatings

Abstract

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