Noteworthy differences between vertical and horizontal sintering of ceramic samples
Sintering of ceramics is known to suffer from homogeneity issues (of phase, microstructure, etc.). The present work aims to provide a simple solution for the same via positioning the sample vertically during conventional sintering. Via vertical sintering, we present two different case studies (with...
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Published in | Journal of alloys and compounds Vol. 923; p. 166309 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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Elsevier B.V
25.11.2022
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Abstract | Sintering of ceramics is known to suffer from homogeneity issues (of phase, microstructure, etc.). The present work aims to provide a simple solution for the same via positioning the sample vertically during conventional sintering. Via vertical sintering, we present two different case studies (with doped-ZrO2 and La2Ce2O7 systems) and illustrate two distinct benefits; e.g., restricting the formation of an otherwise deleterious monoclinic phase in zirconia bodies, and ensuring uniform in-plane texture development on both sides of the ceramic. In each case, the issues observed in the horizontally placed ceramic have been explained in connection to the heat transfer in the ceramic body. Discrepancies in heat transfer resulted in variations in grain orientation and size (mean, median, and cumulative size distribution), eventually leading to different phase developments and texture. This small adjustment (of the positioning of ceramic bodies) may be beneficial at an industrial scale; especially with samples having a large length/diameter ratio.
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•Crucial dependence of positioning of ceramic samples during conventional sintering.•Doped-ZrO2 and La2Ce2O7 ceramic was chosen for the case studies.•Vertical sintering resulting in uniform texture and control phase-purity.•Horizontal sintering depicted abundant monoclinic-ZrO2 phases.•Discrepancies noted for in-plane texture of horizontally sintered La2Ce2O7 ceramic. |
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AbstractList | Sintering of ceramics is known to suffer from homogeneity issues (of phase, microstructure, etc.). The present work aims to provide a simple solution for the same via positioning the sample vertically during conventional sintering. Via vertical sintering, we present two different case studies (with doped-ZrO2 and La2Ce2O7 systems) and illustrate two distinct benefits; e.g., restricting the formation of an otherwise deleterious monoclinic phase in zirconia bodies, and ensuring uniform in-plane texture development on both sides of the ceramic. In each case, the issues observed in the horizontally placed ceramic have been explained in connection to the heat transfer in the ceramic body. Discrepancies in heat transfer resulted in variations in grain orientation and size (mean, median, and cumulative size distribution), eventually leading to different phase developments and texture. This small adjustment (of the positioning of ceramic bodies) may be beneficial at an industrial scale; especially with samples having a large length/diameter ratio. Sintering of ceramics is known to suffer from homogeneity issues (of phase, microstructure, etc.). The present work aims to provide a simple solution for the same via positioning the sample vertically during conventional sintering. Via vertical sintering, we present two different case studies (with doped-ZrO2 and La2Ce2O7 systems) and illustrate two distinct benefits; e.g., restricting the formation of an otherwise deleterious monoclinic phase in zirconia bodies, and ensuring uniform in-plane texture development on both sides of the ceramic. In each case, the issues observed in the horizontally placed ceramic have been explained in connection to the heat transfer in the ceramic body. Discrepancies in heat transfer resulted in variations in grain orientation and size (mean, median, and cumulative size distribution), eventually leading to different phase developments and texture. This small adjustment (of the positioning of ceramic bodies) may be beneficial at an industrial scale; especially with samples having a large length/diameter ratio. [Display omitted] •Crucial dependence of positioning of ceramic samples during conventional sintering.•Doped-ZrO2 and La2Ce2O7 ceramic was chosen for the case studies.•Vertical sintering resulting in uniform texture and control phase-purity.•Horizontal sintering depicted abundant monoclinic-ZrO2 phases.•Discrepancies noted for in-plane texture of horizontally sintered La2Ce2O7 ceramic. |
ArticleNumber | 166309 |
Author | Ali, Faiz Chowdhury, Anirban Lakshya, Annu Kumar Arun, Aditya |
Author_xml | – sequence: 1 givenname: Annu Kumar surname: Lakshya fullname: Lakshya, Annu Kumar – sequence: 2 givenname: Faiz surname: Ali fullname: Ali, Faiz – sequence: 3 givenname: Aditya surname: Arun fullname: Arun, Aditya – sequence: 4 givenname: Anirban surname: Chowdhury fullname: Chowdhury, Anirban email: anirban.chowdhury@gmail.com |
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CitedBy_id | crossref_primary_10_1016_j_tca_2023_179431 crossref_primary_10_1557_s43578_023_01177_5 crossref_primary_10_1111_ijac_14673 crossref_primary_10_1016_j_oceram_2024_100573 |
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Snippet | Sintering of ceramics is known to suffer from homogeneity issues (of phase, microstructure, etc.). The present work aims to provide a simple solution for the... |
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SubjectTerms | Ceramics Grain boundaries Grain orientation Heat transfer Homogeneity Microstructure Oxide materials Sintering Size distribution Texture Zirconium dioxide |
Title | Noteworthy differences between vertical and horizontal sintering of ceramic samples |
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