Nanoindentation of Ni-Ti thin films

P. D. Tall; S. Ndiaye; A. C. Beye; Z. Zong; W. O. Soboyejo; H. J. Lee; A. G. Ramirez; K. Rajan

doi:10.1080/10426910601062222

Nanoindentation of Ni-Ti thin films

P. D. Tall
, S. Ndiaye
, A. C. Beye
, Z. Zong
, W. O. Soboyejo
, H. J. Lee
, A. G. Ramirez
, K. Rajan

Department of Materials Design and Innovation

Université Cheikh Anta Diop de Dakar
Princeton University
Yale University

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

57 Scopus citations

Abstract

Ni-Ti thin films of various compositions were sputtered-deposited on silicon substrates. Their mechanical properties (hardness and Young's modulus) were then determined using a nanoindenter equipped with a Berkovich tip. This paper examines the effects of composition on the mechanical properties (hardness and Young's modulus) of the sputter deposited Ni-Ti thin films. This is of particular interest since the actuation properties of these shape memory alloy films are compositionally sensitive. The surface-induced deformation is revealed via Atomic Force Microscopy (AFM) images of the indented surfaces. Which show evidence of material pile-up that increases with increasing load. The measured Young's moduli are also shown to provide qualitative measures of the extent of stress-induced phase transformation in small volumes of Ni-Ti films.

Original language	English
Pages (from-to)	175-179
Number of pages	5
Journal	Materials and Manufacturing Processes
Volume	22
Issue number	2
DOIs	https://doi.org/10.1080/10426910601062222
State	Published - Feb 2007

Keywords

Hardness
Nanoindentation
Nickel-titanium thin films
Shape memory alloys
Stress-induced phase transformation
Young's modulus

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10.1080/10426910601062222

Cite this

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title = "Nanoindentation of Ni-Ti thin films",

abstract = "Ni-Ti thin films of various compositions were sputtered-deposited on silicon substrates. Their mechanical properties (hardness and Young's modulus) were then determined using a nanoindenter equipped with a Berkovich tip. This paper examines the effects of composition on the mechanical properties (hardness and Young's modulus) of the sputter deposited Ni-Ti thin films. This is of particular interest since the actuation properties of these shape memory alloy films are compositionally sensitive. The surface-induced deformation is revealed via Atomic Force Microscopy (AFM) images of the indented surfaces. Which show evidence of material pile-up that increases with increasing load. The measured Young's moduli are also shown to provide qualitative measures of the extent of stress-induced phase transformation in small volumes of Ni-Ti films.",

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doi = "10.1080/10426910601062222",

language = "English",

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TY - JOUR

T1 - Nanoindentation of Ni-Ti thin films

AU - Tall, P. D.

AU - Ndiaye, S.

AU - Beye, A. C.

AU - Zong, Z.

AU - Soboyejo, W. O.

AU - Lee, H. J.

AU - Ramirez, A. G.

AU - Rajan, K.

PY - 2007/2

Y1 - 2007/2

N2 - Ni-Ti thin films of various compositions were sputtered-deposited on silicon substrates. Their mechanical properties (hardness and Young's modulus) were then determined using a nanoindenter equipped with a Berkovich tip. This paper examines the effects of composition on the mechanical properties (hardness and Young's modulus) of the sputter deposited Ni-Ti thin films. This is of particular interest since the actuation properties of these shape memory alloy films are compositionally sensitive. The surface-induced deformation is revealed via Atomic Force Microscopy (AFM) images of the indented surfaces. Which show evidence of material pile-up that increases with increasing load. The measured Young's moduli are also shown to provide qualitative measures of the extent of stress-induced phase transformation in small volumes of Ni-Ti films.

AB - Ni-Ti thin films of various compositions were sputtered-deposited on silicon substrates. Their mechanical properties (hardness and Young's modulus) were then determined using a nanoindenter equipped with a Berkovich tip. This paper examines the effects of composition on the mechanical properties (hardness and Young's modulus) of the sputter deposited Ni-Ti thin films. This is of particular interest since the actuation properties of these shape memory alloy films are compositionally sensitive. The surface-induced deformation is revealed via Atomic Force Microscopy (AFM) images of the indented surfaces. Which show evidence of material pile-up that increases with increasing load. The measured Young's moduli are also shown to provide qualitative measures of the extent of stress-induced phase transformation in small volumes of Ni-Ti films.

KW - Hardness

KW - Nanoindentation

KW - Nickel-titanium thin films

KW - Shape memory alloys

KW - Stress-induced phase transformation

KW - Young's modulus

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U2 - 10.1080/10426910601062222

DO - 10.1080/10426910601062222

M3 - Article

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VL - 22

SP - 175

EP - 179

JO - Materials and Manufacturing Processes

JF - Materials and Manufacturing Processes

IS - 2

ER -

Nanoindentation of Ni-Ti thin films

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Keywords

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