Abstract
In the current work, a series of coatings produced by cold spray using varying materials were studied with neutron diffraction. The through-thickness residual stress was evaluated in a number of substrate-coating systems, typically at a scale of several millimetres. By combining neutron stress and texture analysis, optical and electron microscopy and numerical simulations of the high strain rate deformation, a multi-scale analysis approach is presented herein to provide insights into the mechanism of residual stress accumulation in cold spray coatings and to help establish a solid framework to understand the mechanisms of splat/coating formation.
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References
Assadi H, Gärtner F, Stoltenhoff T, Kreye H (2003) Bonding mechanism in cold gas spraying. Acta Mater 51(15):4379–4394
Brenner A, Senderoff S (1949) Calculation of stress in electrodeposits from the curvature of a plated strip. J Res Natl Bur Stand 42:105–123
Cho J-H, Rollett AD, Oh KH (2004) Determination of volume fractions of texture components with standard distributions in Euler space. Metall Mater Trans A 35(13):1075–1086
Choi WB, Li L, Luzin V, Neiser R, Gnäupel-Herold T, Prask HJ, Sampath S, Gouldstone A (2007) Integrated characterization of cold sprayed aluminum coatings. Acta Mater 55(3):857–866
Dykhuizen RC, Smith MF (1998) Gas dynamic principles of cold spray. J Therm Spray Technol 7(2):205–212
Genzel CH (2004) Diffraction stress analysis in thin films and coatings – problems, methods and perspectives. J Neutr Res 12:233–241
Grujicic M, Zhao CL, DeRosset WS, Helfritch D (2004) Adiabatic shear instability based mechanism for particles/substrate bonding in the cold-gas dynamic-spray process. Mater Des 25(8):681–688
Gu S, Kamnis S (2009) Bonding mechanism from the impact of thermally sprayed solid particles. Metall Mater Trans A 40(11):2664–2674
Heritage K, Frisby C, Wolfenden A (1988) Impulse excitation technique for dynamic flexural measurements at moderate temperature. Rev Sci Instrum 59(6):973–974
Hutchings MT, Krawitz AD (eds) (1992) Measurement of residual and applied stress using neutron diffraction. NATO science series E 216. Springer, Netherlands
Hutchings MT, Withers PJ, Holden TM, Lorenttzen T (2005) Introduction to the characterization of residual stress by neutron diffraction. Taylor & Francis Ltd, Boca Raton
Kirstein O, Luzin V, Garbe U (2009) The strain-scanning diffractometer Kowari. Neutron News 20(4):34–36
Korsunsky AM (2005) The modelling of residual stresses due to surface peening using eigenstrain distributions. J Strain Anal Eng 40(8):817–824
Luzin V, Valarezo A, Sampath S (2008) Through-thickness residual stress measurement in metal and ceramic spray coatings by neutron diffraction. Mater Sci Forum 571-572:315–320
Luzin V, Matějíček J, Gnäupel-Herold T (2010) Through-thickness residual stress measurement by neutron diffraction in cu+W plasma spray coatings. Mater Sci Forum 652:50–56
Luzin V, Spencer K, Zhang MX (2011) Residual stress and thermo-mechanical properties of cold spray metal coatings. Acta Mater 59(3):1259–1270
Luzin V, Vackel A, Valarezo A, Sampath S (2017) Neutron through-thickness stress measurements in coatings with high spatial resolution. Mater Sci Forum, in press
Matejicek J, Sampath S, Brand PC, Prask HJ (1997) Residual stress measurement on thermally sprayed coatings. In: Proceedings of the 15th international thermal spray conference, Indianapolis, USA, pp 861–866
Matejicek J, Sampath S, Brand PC, Prask HJ (1999) Quenching, thermal and residual stress in plasma sprayed deposits: NiCrAlY and YSZ coatings. Acta Mater 42(7):607–617
Matejicek J, Sampath S (2003) In situ measurement of residual stresses and elastic moduli in thermal sprayed coatings: part 1: apparatus and analysis. Acta Mater 51(3):863–872
Matthies S, Vinel GW, Helming K (1987) Standard distributions in texture analysis: maps for the case of cubic-orthorhomic symmetry. Akademie-Verlag, Berlin
Papyrin PA, Kosarev PV, Klinkov DS, Alkimov PA, Fomin PV (2007) Cold spray technology. Elsevier, Oxford
Pirling T (2011) Precise analysis of near surface neutron strain imaging measurements. Procedia Eng 10:2147–2152
Saleh M, Luzin V, Spencer K (2014a) Analysis of the residual stress and bonding mechanism in the cold spray technique using experimental and numerical methods. Surf Coat Technol 252:15–28
Saleh M, Luzin V, Spencer K (2014b) Evaluation of the residual stress in the cold spray technique using smooth particle hydrodynamics modelling and neutron diffraction. Mater Sci Forum 777:205–212
Santana YY, Renault PO, Sebastiani M, La Barbera JG, Lesage J, Bemporad E, Le Bourhis E, Puchi-Cabrera ES, Staia MH (2008) Characterization and residual stresses of WC-co thermally sprayed coatings. Surf Coat Technol 202:4560–4565
Schmidt T, Assadi H, Gärtner F, Richter H, Stoltenhoff T, Kreye H, Klassen T (2009) From particle acceleration to impact and bonding in cold spraying. J Therm Spray Technol 18(5):794–808
Spencer K, Luzin V, Matthews N, Zhang MX (2012) Residual stresses in cold spray Al coatings: the effect of alloying and of process parameters. Surf Coat Technol 206(19–20):4249–4255
Stoney GG (1909) The tension of Metalic films deposited by electrolysis. Proc Roy Soc Lond A 82:172–175
Suzuki H, Harjo S, Abe J, Xu P, Aizawa P, Akita K (2013) Effects of gauge volume on pseudo-strain induced in strain measurement using time-of-flight neutron diffraction. Nucl Instrum Meth A 715:28–38
Tsui YC, Clyne TW (1997a) An analytical model for predicting residual stresses in progressively deposited coatings part 1: planar geometry. Thin Solid Films 306(1):23–33
Tsui YC, Clyne TW (1997b) An analytical model for predicting residual stresses in progressively deposited coatings part 1: cylindrical geometry. Thin Solid Films 306(1):34–51
Twiss R (1997) Theory and applicability of a recrystallized grain size paleopiezometer. Pageoph 115(1–2):227–244
Zou Y, Qin W, Irissou E, Legoux J-G, Yue S, Szpunar JA (2009) Dynamic recrystallization in the particle/particle interfacial region of cold-sprayed nickel coating: electron backscatter diffraction characterization. Scripta Mater 61(9):899–902
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Luzin, V., Spencer, K., Zhang, M., Matthews, N., Davis, J., Saleh, M. (2018). Residual Stresses in Cold Spray Coatings. In: Cavaliere, P. (eds) Cold-Spray Coatings. Springer, Cham. https://doi.org/10.1007/978-3-319-67183-3_16
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DOI: https://doi.org/10.1007/978-3-319-67183-3_16
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