Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility

Gespeichert in:

Personen und Körperschaften:	Schwarzer, Norbert
Titel:	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
Format:	Computerdatenträger
Sprache:	Englisch
veröffentlicht:	Chemnitz Technische Universität Chemnitz Online-Ausg.. 2006
Schlagwörter:	Biaxial Stress Coating Indentation Intrinsic Stresses Thin Film Elastische Spannung / Messung Technische Mechanik
Quelle:	Qucosa


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245			\|a Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
264			\|a Chemnitz \|b Technische Universität Chemnitz
533			\|a Online-Ausg. \|d 2006 \|e Online-Ressource (Text) \|f Universitätsbibliothek Chemnitz
520			\|a The paper treats the question of feasibility of measuring intrinsic thin film stresses due to nanoindentation. A variety of different methods is proposed and analysed with respect to their applicability. As this accuracy-estimation results in boundary conditions for the measurements which can not be fulfilled yet, the whole topic is considered from a purely academic point of few. With the help of a special software package [25] the following methods are considered: 1.Taking the moment of beginning plastic flow within the substrate as indictor, 2.Taking the moment of beginning plastic flow within the film as indictor, 3.Applying mixed loads (normal and lateral forces), 4.Applying the concept of the effectively shaped indenter. While the methods 2 to 4 appear to be in principle feasible, method 1 can completely be ruled out as being of no practical use. The mentioned software package (FilmDoctor prototype) is part of the supplemental material of this study.
650			\|a Biaxial Stress
650			\|a Coating
650			\|a Indentation
650			\|a Intrinsic Stresses
650			\|a Thin Film
650			\|a Elastische Spannung / Messung
650			\|a Technische Mechanik
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contents	The paper treats the question of feasibility of measuring intrinsic thin film stresses due to nanoindentation. A variety of different methods is proposed and analysed with respect to their applicability. As this accuracy-estimation results in boundary conditions for the measurements which can not be fulfilled yet, the whole topic is considered from a purely academic point of few. With the help of a special software package [25] the following methods are considered: 1.Taking the moment of beginning plastic flow within the substrate as indictor, 2.Taking the moment of beginning plastic flow within the film as indictor, 3.Applying mixed loads (normal and lateral forces), 4.Applying the concept of the effectively shaped indenter. While the methods 2 to 4 appear to be in principle feasible, method 1 can completely be ruled out as being of no practical use. The mentioned software package (FilmDoctor prototype) is part of the supplemental material of this study.
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spelling	Schwarzer, Norbert, Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility, Chemnitz Technische Universität Chemnitz, Online-Ausg. 2006 Online-Ressource (Text) Universitätsbibliothek Chemnitz, The paper treats the question of feasibility of measuring intrinsic thin film stresses due to nanoindentation. A variety of different methods is proposed and analysed with respect to their applicability. As this accuracy-estimation results in boundary conditions for the measurements which can not be fulfilled yet, the whole topic is considered from a purely academic point of few. With the help of a special software package [25] the following methods are considered: 1.Taking the moment of beginning plastic flow within the substrate as indictor, 2.Taking the moment of beginning plastic flow within the film as indictor, 3.Applying mixed loads (normal and lateral forces), 4.Applying the concept of the effectively shaped indenter. While the methods 2 to 4 appear to be in principle feasible, method 1 can completely be ruled out as being of no practical use. The mentioned software package (FilmDoctor prototype) is part of the supplemental material of this study., Biaxial Stress, Coating, Indentation, Intrinsic Stresses, Thin Film, Elastische Spannung / Messung, Technische Mechanik, text/html https://nbn-resolving.org/urn:nbn:de:swb:ch1-200600185 Online-Zugriff
spellingShingle	Schwarzer, Norbert, Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility, The paper treats the question of feasibility of measuring intrinsic thin film stresses due to nanoindentation. A variety of different methods is proposed and analysed with respect to their applicability. As this accuracy-estimation results in boundary conditions for the measurements which can not be fulfilled yet, the whole topic is considered from a purely academic point of few. With the help of a special software package [25] the following methods are considered: 1.Taking the moment of beginning plastic flow within the substrate as indictor, 2.Taking the moment of beginning plastic flow within the film as indictor, 3.Applying mixed loads (normal and lateral forces), 4.Applying the concept of the effectively shaped indenter. While the methods 2 to 4 appear to be in principle feasible, method 1 can completely be ruled out as being of no practical use. The mentioned software package (FilmDoctor prototype) is part of the supplemental material of this study., Biaxial Stress, Coating, Indentation, Intrinsic Stresses, Thin Film, Elastische Spannung / Messung, Technische Mechanik
title	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_auth	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_full	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_fullStr	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_full_unstemmed	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_short	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_sort	determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
title_unstemmed	Determining intrinsic stresses in layered materials via nanoindentation – the question of in principle feasibility
topic	Biaxial Stress, Coating, Indentation, Intrinsic Stresses, Thin Film, Elastische Spannung / Messung, Technische Mechanik
topic_facet	Biaxial Stress, Coating, Indentation, Intrinsic Stresses, Thin Film, Elastische Spannung / Messung, Technische Mechanik
url	https://nbn-resolving.org/urn:nbn:de:swb:ch1-200600185
urn	urn:nbn:de:swb:ch1-200600185
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