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Experimental Mechanics

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20-01-2017

Local Mechanical Behavior of Steel Exposed to Nonlinear Harmonic Oscillation

Authors: D. P. Cole, E. M. Habtour, T. Sano, S. J. Fudger, S. M. Grendahl, A. Dasgupta

Published in: Experimental Mechanics | Issue 7/2017

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Abstract

The local mechanical behavior of fatigued steel specimens was probed using nanoindentation. High-carbon steel cantilevers were exposed to nonlinear harmonic oscillation. The indentation modulus on the beam surface and plastic work during indentation decreased as a function of cycles, which was attributed to grain fragmentation and reorientation as well as the continuous reduction in inherent energy dissipation capacity of the material. X-ray diffraction, electron backscatter diffraction, and atomic force microscopy were used to characterize this microstructural evolution during early stages of the beam fatigue life, which altered 1) the local mechanical properties and 2) the global structural dynamic response. The results provide insight into fatigue damage precursors and provides a framework for connecting materials evolution with nonlinear structural dynamics.

previous article Estimation of Fracture Toughness of Metallic Materials Using Instrumented Indentation: Critical Indentation Stress and Strain Model

next article Phase Transformation Dependence on Initial Plastic Deformation Mode in Si via Nanoindentation

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Farrar C, Worden K (2007) An introduction to structural health monitoring. Phil Trans R Soc A 365:303–315

Pohl J, Willberg C, Gabbert U, Mook G (2012) Experimental and theoretical analysis of lamb wave generation by piezoceramic actuators for structural health monitoring. Exp Mech 52:429–438

Kersemans M, Martens A, Lammens N, Van Den Abeele K, Degrieck J, Zastavnik F, Pyl L, Sol H, Van Paepegem W (2014) Identification of the elastic properties of isotropic and orthotropic thin-plate materials with the pulsed ultrasonic polar scan. Exp Mech 54:1121–1132

Kube C, Turner J (2015) Acoustic nonlinearity parameters for transversely isotropic polycrystalline materials. J Acoust Soc Am 137:3272–3280

Habtour E, Cole DP, Riddick JC, Weiss V, Robeson M, Sridharan R, Dasgupta A (2016) Struct Control Health Monit. doi: 10.1002.stc.1844

Habtour E, Cole DP, Stanton SC, Sridharan R, Dasgupta A (2016) Damage precursor detection for structures subjected to rotational base vibration. Intl J Nonlinear Mech 82:49–58

Pang C, Yu M, Zhang XM, Gupta AK, Bryden KM (2012) Multifunctional optical MEMS sensor platform with heterogeneous fiber optic Fabry-Pérot sensors for wireless sensor networks. Sensor Actuat A-Phys 188:471–480

Sangid MD (2013) The physics of fatigue crack initiation. Int J Fatigue 57:58–72

Shih CC, Ho NJ, Huang HL (2010) The effects of grain boundary on dislocation development for cyclically deformed IF steel. Mater Sci Eng A 527:7247–7251

10.

Basinksi ZS, Basinksi SJ (1992) Fundamental aspects of low-amplitude cyclic deformation in face-centered cubic crystals. Prog Mater Sci 36:89–148

11.

Alankar A, Field DP, Raabe D (2014) Plastic anisotropy of electro-deposited pure α-iron with sharp crystallographic <111>// texture innormal direction: Analysis by an explicitly dislocation-based crystal plasticity model. Int J Plasticity 52:18–32

12.

Mughrabi H, Herz K, Stark X (1976) The effect of strain-rate on the cyclic deformation properties of α-iron single crystals. Acta Metall Mater 24:659–668

13.

Mughrabi H, Herz K, Stark X (1981) Cyclic deformation and fatigue behavior of α-iron mono- and polycrystals. Int J Fracture 17:193–220

14.

Pai PF, Nayfeh AH (1990) Non-linear non-planar oscillations of a cantilever beam under lateral base excitations. Intl J Nonlinear Mech 25:455–474

15.

Crespo Da Silva MRM, Zaretzky CL (1994) Nonlinear flexural-flexural-torsional interactions in beams including the effect of torsional dynamics. I: Primary resonance. Nonlinear Dyn 5:3–23

16.

Oliver WC, Pharr GM (1992) An improved technique for determining hardness and elastic modulus using load and displacementsensing indentation experiments. J Mater Res 7(6):1564–1583

17.

Xu ZH, Li X (2005) Influence of equi-biaxial residual stress on unloading behaviour of nanoindentation. Acta Mater 53:1913–1919

18.

Lee YH, Kwon D (2003) Measurement of residual-stress effect by nanoindentation on elastically strained (100) W. Scripta Mater 49:459–465

19.

Odegard GM, Gates TS, Herring HM (2005) Characterization of viscoelastic properties of polymeric materials through nanoindentation. Exp Mech 45:130–136

20.

Huang G, Lu H (2007) Measurements of two independent viscoelastic functions by nanoindentation. Exp Mech 47:87–98

21.

Cole DP, Bruck HA, Roytburd AL (2009) Nanomechanical characterisation of graded NiTi films fabricated through diffusion modification. Strain 45:232–237

22.

Cole DP, Strawhecker KE (2014) An improved instrumented indentation technique for single microfibers. J Mater Res 29:1104–1112

23.

Jakes JE, Frihart CR, Beecher JF, Moon RJ, Stone DS (2008) Experimental method to account for structural compliance in nanoindentation measurements. J Mater Res 23(4):1113–1127

24.

Cole DP, Riddick JC, Jaim HMI, Strawhecker KE, Zander NE (2016) Interfacial mechanical behavior of 3D printed ABS. J Appl Polym Sci 133:43671

25.

Giannakopoulos AE, Suresh S (1999) Determination of elastoplastic properties by instrumented sharp indentation. Scripta Mater 40:1191–1198

26.

Ye D, Xu H, Feng X, Xu Y, Xiao L (2016) Depth-sensing indentation-based studies of surface mechanical behavior and fatigue damageevolution of an austenitic stainless steel subjected to cyclic straining. Mater Sci Eng A 650:38–51

27.

Shigley JE, Mischke CR (2001) Mechanical engineering design. McGraw-Hill, Boston

28.

Jang J (2009) Estimation of residual stress by instrumented indentation: A review. J Ceram Process Res 10:391–400

29.

Adams JJ, Agosta DS, Leisure RG, Ledbetter H (2006) Elastic constants of monocrystal iron from 3 to 500 K. J Appl Phys 100:113530-1–113530-7

30.

Johnson KL (1970) The correlation of indentation experiments. J Mech Phys Solids 18:115–126

31.

Johnson KL (1985) Contact mechanics. Cambridge University Press, CambridgeCrossRefMATH

32.

Kumar V, Miller JK, Rhoads JF (2011) Nonlinear parametric amplification and attenuation in a base-excited cantilever beam. J Sound Vib 330:5401–5409

33.

Mura T (1987) Micromechanics of defects in solids. Martinus Nijhoff Publishers, DordrechtCrossRefMATH

34.

Allix O, Hild F (2002) Continuum damage mechanics of materials and structures. Elsevier, AmsterdamCrossRef

35.

Lifshitz R, Kenig E, Cross MC (2012) Fluctuating nonlinear oscillators. Oxford Univ Press, Oxford

36.

Villanueva LG, Karabalin RB, Matheny MH, Chi D, Sader JE, Roukes ML (2013) Nonlinearity in nanomechanical cantilevers. Phys Rev B 87:024304

37.

Zavodney LD, Nayfeh AH (1989) The non-linear response of a slender beam carrying a lumped mass to a principal parametric excitation: Theory and experiment. Intl J Nonlinear Mech 24(2):105–125

38.

Yu S, He S, Li W (2010) Theoretical and experimental studies of beam bimorph piezoelectric power harvesters. J Mech Mater Struct 5(3):427–445

Title: Local Mechanical Behavior of Steel Exposed to Nonlinear Harmonic Oscillation
Authors: D. P. Cole
E. M. Habtour
T. Sano
S. J. Fudger
S. M. Grendahl
A. Dasgupta
Publication date: 20-01-2017
Publisher: Springer US
Published in: Experimental Mechanics / Issue 7/2017
Print ISSN: 0014-4851
Electronic ISSN: 1741-2765
DOI: https://doi.org/10.1007/s11340-017-0252-8

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Preface

Phase Transformation Dependence on Initial Plastic Deformation Mode in Si via Nanoindentation

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