On the use of instrumented indentation to characterize the mechanical properties of functionally graded binary alloys manufactured by additive manufacturing
•A Ti-xNb FGM (where x=0, 26, 48, 75 and 100%) was builded by CLAD® additive manufacturing process.•The Young’s modulus and the work hardening law of each part of the FGM was obtained from instrumented indentation.•A good correlation between the mechanical properties obtained from tensile test and i...
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Published in | Materials today communications Vol. 25; p. 101451 |
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Main Authors | , , , , , , |
Format | Journal Article |
Language | English |
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01.12.2020
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Abstract | •A Ti-xNb FGM (where x=0, 26, 48, 75 and 100%) was builded by CLAD® additive manufacturing process.•The Young’s modulus and the work hardening law of each part of the FGM was obtained from instrumented indentation.•A good correlation between the mechanical properties obtained from tensile test and indentation was obtained.•For all compositions of the Ti-Nb FGM, Young’s Modulus values obtained from IIT are consistent with results from literature.
The mechanical properties of a Ti-xNb functionally graded material (FGM) created by using an additive manufacturing process (CLAD®) were obtained using a spherical instrumented indentation test (IIT). The aim of this paper is to demonstrate the great suitability of the indentation test coupled with FGM for not only obtaining the hardness of a material, but also obtaining other mechanical properties such as Young’s modulus, yield stress and the work-hardening exponent for heterogeneous materials. In the first step, results obtained from the instrumented indentation test were compared with those obtained from the tensile test for the same materials. These results show that these two tests highlight a similar evolution in the mechanical properties. In the second step, and after validating the efficiency of the IIT in obtaining mechanical properties, the FGM Ti-xNb was successfully identified using only IIT. This paper demonstrates that the different mechanical properties of all the compositions of a phase diagram can be measured very easily and quickly while minimizing the number of samples. |
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AbstractList | •A Ti-xNb FGM (where x=0, 26, 48, 75 and 100%) was builded by CLAD® additive manufacturing process.•The Young’s modulus and the work hardening law of each part of the FGM was obtained from instrumented indentation.•A good correlation between the mechanical properties obtained from tensile test and indentation was obtained.•For all compositions of the Ti-Nb FGM, Young’s Modulus values obtained from IIT are consistent with results from literature.
The mechanical properties of a Ti-xNb functionally graded material (FGM) created by using an additive manufacturing process (CLAD®) were obtained using a spherical instrumented indentation test (IIT). The aim of this paper is to demonstrate the great suitability of the indentation test coupled with FGM for not only obtaining the hardness of a material, but also obtaining other mechanical properties such as Young’s modulus, yield stress and the work-hardening exponent for heterogeneous materials. In the first step, results obtained from the instrumented indentation test were compared with those obtained from the tensile test for the same materials. These results show that these two tests highlight a similar evolution in the mechanical properties. In the second step, and after validating the efficiency of the IIT in obtaining mechanical properties, the FGM Ti-xNb was successfully identified using only IIT. This paper demonstrates that the different mechanical properties of all the compositions of a phase diagram can be measured very easily and quickly while minimizing the number of samples. The mechanical properties of a Ti-xNb functionally graded material (FGM) created by using an additive manufacturing process (CLAD®) were obtained using a spherical instrumented indentation test (IIT). The aim of this paper is to demonstrate the great suitability of the indentation test coupled with FGM for not only obtaining the hardness of a material, but also obtaining other mechanical properties such as Young's modulus, yield stress and the work-hardening exponent for heterogeneous materials. In the first step, results obtained from the instrumented indentation test were compared with those obtained from the tensile test for the same materials. These results show that these two tests highlight a similar evolution in the mechanical properties. In the second step, and after validating the efficiency of the IIT in obtaining mechanical properties, the FGM Ti-xNb was successfully identified using only IIT. This paper demonstrates that the different mechanical properties of all the compositions of a phase diagram can be measured very easily and quickly while minimizing the number of samples. |
ArticleNumber | 101451 |
Author | Laheurte, P. Hernot, X. Schneider-Maunoury, C. Bartier, O. Mauvoisin, G. Weiss, L. Albayda, A. |
Author_xml | – sequence: 1 givenname: C. surname: Schneider-Maunoury fullname: Schneider-Maunoury, C. organization: Université de Lorraine, CNRS, Arts et Métiers ParisTech, LEM3, F-57000, Metz, France – sequence: 2 givenname: A. surname: Albayda fullname: Albayda, A. organization: LGCGM, Université Rennes 1, 3 Rue du Clos Courtel, 35700, Rennes, France – sequence: 3 givenname: O. surname: Bartier fullname: Bartier, O. email: olivier.bartier@univ-rennes1.fr organization: LGCGM, Université Rennes 1, 3 Rue du Clos Courtel, 35700, Rennes, France – sequence: 4 givenname: L. surname: Weiss fullname: Weiss, L. organization: Université de Lorraine, CNRS, Arts et Métiers ParisTech, LEM3, F-57000, Metz, France – sequence: 5 givenname: G. surname: Mauvoisin fullname: Mauvoisin, G. organization: LGCGM, Université Rennes 1, 3 Rue du Clos Courtel, 35700, Rennes, France – sequence: 6 givenname: X. surname: Hernot fullname: Hernot, X. organization: LGCGM, Université Rennes 1, 3 Rue du Clos Courtel, 35700, Rennes, France – sequence: 7 givenname: P. surname: Laheurte fullname: Laheurte, P. organization: Université de Lorraine, CNRS, Arts et Métiers ParisTech, LEM3, F-57000, Metz, France |
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CitedBy_id | crossref_primary_10_3390_ma17123018 crossref_primary_10_1007_s12541_023_00864_x crossref_primary_10_1016_j_jmrt_2021_05_022 crossref_primary_10_1108_AEAT_03_2022_0096 crossref_primary_10_1007_s00170_022_09986_4 crossref_primary_10_1051_mattech_2022025 crossref_primary_10_3390_solids3030030 |
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Keywords | Additive manufacturing Instrumented indentation test Functionally graded material Tensile test Titanium-niobium alloys |
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Snippet | •A Ti-xNb FGM (where x=0, 26, 48, 75 and 100%) was builded by CLAD® additive manufacturing process.•The Young’s modulus and the work hardening law of each part... The mechanical properties of a Ti-xNb functionally graded material (FGM) created by using an additive manufacturing process (CLAD®) were obtained using a... |
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SubjectTerms | Additive manufacturing Chemical Sciences Functionally graded material Instrumented indentation test Material chemistry Tensile test Titanium-niobium alloys |
Title | On the use of instrumented indentation to characterize the mechanical properties of functionally graded binary alloys manufactured by additive manufacturing |
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