Skip to main content Accessibility help
×
Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-19T09:32:18.551Z Has data issue: false hasContentIssue false

References

Published online by Cambridge University Press:  13 July 2017

Matthew R. Begley
Affiliation:
University of California, Santa Barbara
John W. Hutchinson
Affiliation:
Harvard University, Massachusetts
Get access

Summary

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Chapter
Information
Publisher: Cambridge University Press
Print publication year: 2017

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ambrico, J.M. & Begley, M.R. (2002) ‘The role of initial flaw size, elastic compliance and plasticity in channel cracking of thin films’, Thin Solid Films 419(1), 144–153.Google Scholar
Ambrico, J.M. & Begley, M.R. (2003) ‘The role of flaw geometry in thin film delamination from two-dimensional interface flaws along free edges’, Engineering Fracture Mechanics 70(13), 1721–1736.Google Scholar
Anderson, T.L. & Anderson, T.L. (2005) Fracture Mechanics: Fundamentals and Applications, CRC Press.
Audoly, B. (1999) ‘Stability of straight delamination blisters’, Physical Review Letters 83(20): 4124.Google Scholar
Bagchi, A. & Evans, A.G. (1996) ‘Measurements of the debond energy for thin metallization lines on dielectrics’, Thin Solid Films 286(1), 203–212.Google Scholar
Balint, D.S. & Hutchinson, J.W. (2001) ‘Mode 2 edge delamination of compressed thin films’, Journal of Applied Mechanics 68(5), 725–730.Google Scholar
Bank-Sills, L., Travitzky, N., Ashkenazi, D. & Eliasi, R. (1999) ‘A methodology for measuring interface fracture properties of composite materials’, International Journal of Fracture 99(3), 143–161.Google Scholar
Banks-Sills, L., Freed, Y., Eliasi, R. & Fourman, V. (2006) ‘Fracture toughness of the +45/ - 45 interface of a laminate composite’, International Journal of Fracture 141(1–2), 195–210.Google Scholar
Bathe, K.-J. (1997) Finite Element Procedures, Prentice-Hall, Upper Saddle River, NJ.
Begley, M.R. & Ambrico, J.M. (2001) ‘Delamination of thin films from two-dimensional interface flaws at corners and edges’, International Journal of Fracture 112(3), 205–222.Google Scholar
Begley, M.R. & Bart-Smith, H. (2005) ‘The electro-mechanical response of highly compliant substrates and thin stiff films with periodic cracks’, International Journal of Solids and Structures 42(18), 5259–5273.Google Scholar
Begley, M.R., Collino, R.R., Israelachvili, J.N. & McMeeking, R.M. (2014) ‘Peeling of a tape with frictional sliding and large deformations’, Journal of the Mechanics and Physics of Solids 61, 1265–1279.Google Scholar
Begley, M.R., Mumm, D.R., Evans, A.G. & Hutchinson, J.W. (2000) ‘Analysis of a wedge impression test for measuring the interface toughness between films/coatings and ductile substrates’, Acta Materialia 48(12), 3211–3220.Google Scholar
Beuth, J.L. (1992) ‘Cracking of thin bonded films in residual tension’, International Journal of Solids and Structures 29, 1657–1675.Google Scholar
Beuth, J.L. & Klingbeil, N.W. (1996) ‘Cracking of thin films bonded to elastic-plastic substrates’, Journal of the Mechanics and Physics of Solids 44, 1411–1428.Google Scholar
Bilby, B.A., Cardew, G.E. & Howard, I.C. (1977) ‘Stress intensity factors at the tips of kinked and forked cracks’, Fracture 3, 197–200.Google Scholar
Bower, A.F. (2010) Applied Mechanics of Solids, CRC Press, Boca Raton, FL.
Broek, D. (2012) Elementary Engineering Fracture Mechanics, Springer Science & Business Media, Martinus Nijhoff, The Hague.
Buchanan, G. (1994) Schaum's Outline of Finite Element Analysis,McGraw-Hill Education, New York.
Cao, H.C. & Evans, A.G. (1989) ‘An experimental study of the fracture resistance of bimaterial interfaces’, Mechanics of Materials 7(4), 295–304.Google Scholar
Charalambides, P.G., Cao, H.C., Lund, J. & Evans, A.G. (1990) ‘Development of a test method for measuring the mixed mode fracture resistance of bimaterial interfaces’, Mechanics of Materials 8(4), 269–283.Google Scholar
Charalambides, P.G., Lund, J., Evans, A.G. & McMeeking, R.M. (1989) ‘A test specimen for determining the fracture resistance of bimaterial interfaces’, Journal of Applied Mechanics 56(1), 77–82.Google Scholar
Chen, J. & Bull, S.J. (2010) ‘Approaches to investigate delamination and interfacial toughness in coated systems: An overview’, Journal of Physics D: Applied Physics 44(3), 034001.Google Scholar
Cherepanov, G.P. (1962) ‘The stress state in a heterogeneous plate with slits’, Izvestia AN SSSR, OTN, Mekhan. i Mashin 1, 131–137.Google Scholar
Collino, R.R., Philips, N., Rossol, M., McMeeking, R. & Begley, M.R. (2014) ‘Detachment of compliant thin films adhered to stiff substrates via Van der Waals interactions’, Proceedings of the Royal Society: Interface 11, 20140453.Google Scholar
Comninou, M. (1977) ‘The interface crack’, Journal of Applied Mechanics 44(4), 631–636.Google Scholar
Cotterell, B. & Chen, Z. (2000) ‘Buckling and cracking of thin films on compliant substrates under compression’, International Journal of Fracture 104(2), 169–179.Google Scholar
Cotterell, B. & Rice, J.R. (1980) ‘Slightly curved or kinked cracks’, International Journal of Fracture 16(2), 155–169.Google Scholar
Dauskardt, R.H., Lane, M.,Ma, Q. & Krishna, N. (1998) ‘Adhesion and debonding of multi-layer thin film structures’, Engineering Fracture Mechanics 61(1), 141–162.Google Scholar
Delannay, F. & Warren, P. (1991) ‘On crack interaction and crack density in strain-induced cracking of brittle films on ductile substrates’, Acta Metallurgica et Materialia 39(6), 1061–1072.Google Scholar
Douville, N.J., Li, Z., Takayama, S. & Thouless, M.D. (2011) ‘Fracture of metal coated elastomers’, Soft Matter 7(14), 6493–6500.Google Scholar
Dundurs, J. (1969) ‘Discussion: Edge-bonded dissimilar orthogonal elastic wedges under normal and shear loading (Bogy, D.B., 1968, ASME J. Appl. Mech., 35, pp. 460–466)’, Journal of Applied Mechanics 36(3), 650–652.Google Scholar
Dvorak, G.J. & Laws, N. (1986) ‘Analysis of first ply failure in composite laminates’, Engineering Fracture Mechanics 25(5), 763–770.Google Scholar
Eberl, C., Wang, X., Gianola, D.S., Nguyen, T.D., He, M.Y., Evans, A.G. & Hemker, K.J. (2011) ‘In situ measurement of the toughness of the interface between a thermal barrier coating and a Ni alloy’, Journal of the American Ceramic Society 94(s1), 120–127.Google Scholar
England, A.H. (1965) ‘A crack between dissimilar media’, Journal of Applied Mechanics 32(2), 400–402.Google Scholar
Erdogan, F.O. (1965) ‘Stress distribution in bonded dissimilar materials with cracks’, Journal of Applied Mechanics 32(2), 403–410.Google Scholar
Erdogan, F. & Sih, G. (1963) ‘On the crack extension in plates under plane loading and transverse shear’, Journal of Basic Engineering 85(4), 519–525.Google Scholar
Evans, A.G., Drory, M.D. & Hu, M.S. (1988) ‘The cracking and decohesion of thin films’, Journal of Materials Research 3(05), 1043–1049.Google Scholar
Evans, A.G. & Hutchinson, J.W. (1989) ‘Effects of non-planarity on the mixed mode fracture resistance of bimaterial interfaces’, Acta Metallurgica 37(3), 909–916.Google Scholar
Evans, A.G., Rühle, M., Dalgleish, B.J. & Charalambides, P.G. (1990) ‘The fracture energy of bimaterial interfaces’, Metallurgical Transactions A 21(9), 2419–2429.Google Scholar
Evans, A. & Hutchinson, J. (2007) ‘The mechanics of coating delamination in thermal gradients’, Surface and Coatings Technology 201(18), 7905–7916.Google Scholar
Faou, J.-Y., Parry, G., Grachev, S. & Barthel, E. (2012) ‘How does adhesion induce the formation of telephone cord buckles?’, Physical Review Letters 108(11), 116102.Google Scholar
Faou, J.-Y., Parry, G., Grachev, S. & Barthel, E. (2015) ‘Telephone cord buckles: A relation between wavelength and adhesion’, Journal of the Mechanics and Physics of Solids 75, 93– 103.Google Scholar
Florence, A.L. & Goodier, J.N. (1960) ‘Thermal stresses due to disturbance of uniform heat flow by an insulated ovaloid hole’, Journal of Applied Mechanics 27(4), 635–639.Google Scholar
Freund, L.B. & Suresh, S. (2003) Thin Film Materials, Cambridge University Press, Cambridge.
Gille, G. (1985) ‘Strength of thin films and coatings’, in E., Kaldis, ed., Current Topics in Materials Science, Vol. 12, North Holland, Amsterdam.
Guo, S., Mumm, D., Karlsson, A.M. & Kagawa, Y. (2005) ‘Measurement of interfacial shear mechanical properties in thermal barrier coating systems by a barb pullout method’, Scripta Materialia 53(9), 1043–1048.Google Scholar
Hayashi, K. & Nemat-Nasser, S. (1981) ‘Energy-release rate and crack kinking under combined loading’, Journal of Applied Mechanics 48(3), 520–524.Google Scholar
He, M.-Y., Bartlett, A., Evans, A.G. & Hutchinson, J.W. (1991) ‘Kinking of a crack out of an interface: Role of in-plane stress’, Journal of the American Ceramic Society 74(4), 767–771.Google Scholar
He, M.Y., Evans, A.G. & Hutchinson, J.W. (1994) ‘Crack deflection at an interface between dissimilar elastic materials: Role of residual stresses’, International Journal of Solids and Structures 31(24), 3443–3455.Google Scholar
He, M.-Y. & Hutchinson, J.W. (1989b) ‘Kinking of a crack out of an interface’, Journal of Applied Mechanics 56(2), 270–278.Google Scholar
He, M.-Y. & Hutchinson, J.W. (1989a) ‘Crack deflection at an interface between dissimilar elastic materials’, International Journal of Solids and Structures 25(9), 1053–1067.Google Scholar
Ho, S. & Suo, Z. (1993) ‘Tunneling cracks in constrained layers’, Journal of Applied Mechanics 60(4), 890–894.Google Scholar
Hofinger, I., Oechsner, M., Bahr, H.-A. & Swain, M.V. (1998) ‘Modified four-point bending specimen for determining the interface fracture energy for thin, brittle layers’, International Journal of Fracture 92(3), 213–220.Google Scholar
Hohlfelder, R.J., Luo, H., Vlassak, J.J., Chidsey, C.E. D. & Nix, W.D. (1996) ‘Measuring interfacial fracture toughness with the blister test’, in MRS Proceedings, Vol. 436, Cambridge University Press, Cambridge, p. 115.
Hutchinson, J.W. & Suo, Z. (1992) ‘Mixed mode cracking in layered materials’, Advances in Applied Mechanics 29, 63–191.Google Scholar
Hutchinson, J.W., Thouless, M.D. & Liniger, E.G. (1992) ‘Growth and configurational stability of circular, buckling-driven film delaminations’, Acta Metallurgica et Materialia 40(2), 295–308.Google Scholar
Hutchinson, R.G. & Hutchinson, J.W. (2011) ‘Lifetime assessment for thermal barrier coatings: Tests for measuring mixed mode delamination toughness’, Journal of the American Ceramic Society 94(s1), 85–95.Google Scholar
Jackson, R.W. & Begley, M.R. (2014) ‘Critical cooling rates to avoid transient-driven cracking in thermal barrier coating (TBC) systems’, International Journal of Solids and Structures 51(6), 1364–1374.Google Scholar
Jackson, R.W., Zaleski, E.M., Poerschke, D.L., Hazel, B.T., Begley, M.R. & Levi, C.G. (2015) ‘Interaction of molten silicates with thermal barrier coatings under temperature gradients’, Acta Materialia 89, 396–407.Google Scholar
Jensen, H.M. (1991) ‘The blister test for interface toughness measurement’, Engineering Fracture Mechanics 40(3), 475–486.Google Scholar
Jensen, H.M., Hutchinson, J.W. & Kim, K.-S. (1990) ‘Decohesion of a cut prestressed film on a substrate’, International Journal of Solids and Structures 26(9), 1099–1114.Google Scholar
Jensen, H.M. & Thouless, M.D. (1993) ‘Effects of residual stresses in the blister test’, International Journal of Solids and Structures 30(6), 779–795.Google Scholar
Jorgensen, D.J., Pollock, T.M. & Begley, M.R. (2015) ‘Dynamic response of thin films on substrates subjected to femtosecond laser pulses’, Acta Materialia 84, 136–144.Google Scholar
Kanninen, M.F. & Popelar, C.L. (1985) Advanced Engineering Fracture Mechanics, Oxford University Press, Oxford.
Kardomateas, G.A., Berggreen, C. & Carlsson, L.A. (2013) ‘Energy-release rate and mode mixity of face/core debonds in sandwich beams’, AIAA Journal 51(4), 885–892.Google Scholar
Knott, J.F. (1973) Fundamentals of Fracture Mechanics, Gruppo Italiano Frattura, Butterworth, London.
Kuo, A.-Y. (1990) ‘Effects of crack surface heat conductance on stress intensity factors’, Journal of Applied Mechanics 57(2), 354–358.Google Scholar
Liechti, K.M. & Chai, Y.-S. (1991) ‘Biaxial loading experiments for determining interfacial fracture toughness’, Journal of Applied Mechanics 58(3), 680–687.Google Scholar
Liechti, K.M. & Chai, Y.-S. (1992) ‘Asymmetric shielding in interfacial fracture under in-plane shear’, Journal of Applied Mechanics 59(2), 295–304.Google Scholar
Malyshev, B.M. & Salganik, R.L. (1965) ‘The strength of adhesive joints using the theory of cracks’, International Journal of Fracture Mechanics 1(2), 114–128.Google Scholar
Marthelot, J. (2014) Delamination of thin films, PhD thesis, ESPCI-PSL, University Pierre and Marie Curie, Paris, France.
Marthelot, J., Bico, J., Melo, F. & Roman, B. (2015) ‘A new failure mechanism in thin film by collaborative fracture and delamination: Interacting duos of cracks’, Journal of the Mechanics and Physics of Solids 84, 214–229.Google Scholar
Matos, P.L., McMeeking, R.M., Charlambides, G., Drory, M.D. (1989) ‘A method for calculating stress intensities in bimaterial fracture’, International Journal of Fracture 40, 235– 244.Google Scholar
Mei, H., Landis, C.M. & Huang, R. (2011) ‘Concomitant wrinkling and buckle-delamination of elastic thin films on compliant substrates’, Mechanics of Materials 43(11), 627–642.Google Scholar
Moon, M.-W., Lee, K.-R., Oh, K.-H. & Hutchinson, J.W. (2004) ‘Buckle delamination on patterned substrates’, Acta Materialia 52(10), 3151–3159.Google Scholar
Noijen, S.P.M., van der Sluis, O., Timmermans, P.H. M. & Zhang, G.Q. (2012) ‘A semi-analytic method for crack kinking analysis at isotropic bi-material interfaces’, Engineering Fracture Mechanics 83, 8–25.Google Scholar
Parks, D.M. (1974) ‘A stiffness derivative method finite element technique for determination of crack tip stress intensity factors’, International Journal of Fracture 10, 487–502.Google Scholar
Parry, G., Colin, J., Coupeau, C., Foucher, F., Cimetière, A. & Grilhé, J. (2005) ‘Effect of substrate compliance on the global unilateral post-buckling of coatings: AFM observations and finite element calculations’, Acta Materialia 53(2), 441–447.Google Scholar
Rice, J.R. (1988) ‘Elastic fracture mechanics concepts for interfacial cracks’, Journal of Applied Mechanics 55(1), 98–103.Google Scholar
Rice, J.R. & Sih, G.C. (1965) ‘Plane problems of cracks in dissimilar media’, Journal of Applied Mechanics 32(2), 418–423.Google Scholar
Rice, J.R., Suo, Z. & Wang, J.-S. (1990) ‘Mechanics and thermodynamics of brittle interfacial failure in bimaterial systems’, in M., Rühle, A. G., Evans M. F., Ashby & J. P., Hirth eds., Metal- Ceramic Interfaces, Pergamon Press, Oxford, pp. 269–294.
Shield, T.W. & Kim, K.S. (1992) ‘Beam theory models for thin film segments cohesively bonded to an elastic half space’, International Journal of Solids and Structures 29(9), 1085–1103.Google Scholar
Sih, G.C. (1962) ‘On the singular character of thermal stresses near a crack tip’, Journal of Applied Mechanics 29(3), 587–589.Google Scholar
Sofla, A., Seker, E., Landers, J.P. & Begley, M. R. (2010) ‘PDMS-glass interface adhesion energy determined via comprehensive solutions for thin film bulge/blister tests’, Journal of Applied Mechanics 77(3), 031007.Google Scholar
Sørensen, B.F., Jørgensen, K., Jacobsen, T.K. & Østergaard, R.C. (2006) ‘Dcb-specimen loaded with uneven bending moments’, International Journal of Fracture 141(1–2), 163– 176.Google Scholar
Stringfellow, R.G. & Freund, L.B. (1993) ‘The effect of interfacial friction on the buckledriven spontaneous delamination of a compressed thin film’, International Journal of Solids and Structures 30(10), 1379–1395.Google Scholar
Suga, T., Elssner, G. & Schmauder, S. (1988) ‘Composite parameters and mechanical compatibility of material joints’, Journal of Composite Materials 22(10), 917–934.Google Scholar
Sundaram, S., Lipkin, D., Johnson, C. & Hutchinson, J. (2013) ‘The influence of transient thermal gradients and substrate constraint on delamination of thermal barrier coatings’, Journal of Applied Mechanics 80(1), 011002.Google Scholar
Suo, Z. & Hutchinson, J.W. (1989) ‘Sandwich test specimens for measuring interface crack toughness’, Materials Science and Engineering: A 107, 135–143.Google Scholar
Suo, Z. & Hutchinson, J.W. (1990) ‘Interface crack between two elastic layers’, International Journal of Fracture 43(1), 1–18.Google Scholar
Tada, H., Paris, P.C. & Irwin, G.R. (2000) The Stress Analysis of Cracks Handbook 3rd rev. ed., ASME Press, New York.
Théry, P.-Y., Poulain, M., Dupeux, M. & Braccini, M. (2009) ‘Spallation of two thermal barrier coating systems: Experimental study of adhesion and energetic approach to lifetime during cyclic oxidation’, Journal of Materials Science 44(7), 1726–1733.Google Scholar
Thouless, M.D. (1990) ‘Crack spacing in brittle films on elastic substrates’, Journal of the American Ceramic Society 73(7), 2144–2146.Google Scholar
Thouless, M.D., Li, Z., Douville, N.J. & Takayama, S. (2011) ‘Periodic cracking of films supported on compliant substrates’, Journal of the Mechanics and Physics of Solids 59(9), 1927–1937.Google Scholar
Tvergaard, V. & Hutchinson, J.W. (1993) ‘The influence of plasticity on mixed mode interface toughness’, Journal of the Mechanics and Physics of Solids 41(6), 1119–1135.Google Scholar
Tvergaard, V., Xia, Z.C. & Hutchinson, J.W. (1993) ‘Cracking due to localized hot shock’, Journal of the American Ceramic Society 76(3), 729–736.Google Scholar
Vasinonta, A. & Beuth, J.L. (2001) ‘Measurement of interfacial toughness in thermal barrier coating systems by indentation’, Engineering Fracture Mechanics 68(7), 843–860.Google Scholar
Vaunois, J.R. (2014) Modèlisation de la durèe de vie des barrières thermiques, par le dèveloppement et l'exploitation d'essais d'adhèrence, PhD thesis, Materials, Universitè de Grenoble.
Vaunois, J.-R., Poulain, M., Kanoute, P. & Chaboche, J.-L. (2016) ‘Development of bending tests for near shear mode interfacial toughness measurement of eb-pvd thermal barrier coatings’, Engineering Fracture Mechanics, to appear.
Wang, J.-S. & Suo, Z. (1990) ‘Experimental determination of interfacial toughness curves using Brazil-nut-sandwiches’, Acta Metallurgica et Materialia 38(7), 1279–1290.Google Scholar
Williams, M.L. (1959) ‘The stresses around a fault or crack in dissimilar media’, Bulletin of the Seismological Society of America 49(2), 199–204.Google Scholar
Wolfram Research (2016) Mathematica v. 11. Wolfram Research Inc.
Xia, Z.C. & Hutchinson, J.W. (2000) ‘Crack patterns in thin films’, Journal of the Mechanics and Physics of Solids 48(6), 1107–1131.Google Scholar
Xue, Z., Evans, A. & Hutchinson, J. (2009) ‘Delamination susceptibility of coatings under high thermal flux’, Journal of Applied Mechanics 76(4), 041008.Google Scholar
Ye, T., Suo, Z. & Evans, A.G. (1992) ‘Thin film cracking and the roles of substrate and interface’, International Journal of Solids and Structures 29(21), 2639–2648.Google Scholar
Yu, H.-H., He, M.-Y. & Hutchinson, J.W. (2001) ‘Edge effects in thin film delamination’, Acta Materialia 49(1), 93–107.Google Scholar
Yu, H.-H. & Hutchinson, J.W. (2002) ‘Influence of substrate compliance on buckling delamination of thin films’, International Journal of Fracture 113(1), 39–55.Google Scholar
Yu, H.-H. & Hutchinson, J.W. (2003) ‘Delamination of thin film strips’, Thin Solid Films 423(1), 54–63.Google Scholar
Zak, A.R. & Williams, M.L. (1963) ‘Crack point stress singularities at a bi-material interface’, Journal of Applied Mechanics 30(1), 142–143.Google Scholar
Zheng, J. & Sitaraman, S.K. (2007) ‘Fixtureless superlayer-driven delamination test for nanoscale thin-film interfaces’, Thin Solid Films 515(11), 4709–4716.Google Scholar
Zhuk, A.V., Evans, A.G., Hutchinson, J.W. & Whitesides, G.M. (1998) ‘The adhesion energy between polymer thin films and self-assembled monolayers’, Journal of Materials Research 13(12), 3555–3564.Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure coreplatform@cambridge.org is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

  • References
  • Matthew R. Begley, University of California, Santa Barbara, John W. Hutchinson, Harvard University, Massachusetts
  • Book: The Mechanics and Reliability of Films, Multilayers and Coatings
  • Online publication: 13 July 2017
  • Chapter DOI: https://doi.org/10.1017/9781316443606.019
Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

  • References
  • Matthew R. Begley, University of California, Santa Barbara, John W. Hutchinson, Harvard University, Massachusetts
  • Book: The Mechanics and Reliability of Films, Multilayers and Coatings
  • Online publication: 13 July 2017
  • Chapter DOI: https://doi.org/10.1017/9781316443606.019
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Matthew R. Begley, University of California, Santa Barbara, John W. Hutchinson, Harvard University, Massachusetts
  • Book: The Mechanics and Reliability of Films, Multilayers and Coatings
  • Online publication: 13 July 2017
  • Chapter DOI: https://doi.org/10.1017/9781316443606.019
Available formats
×