Cargando…
The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis
The electronics related to the fifth generation mobile communication technology (5G) are projected to possess significant market potential. High dielectric constant microwave ceramics used as filters and resonators in 5G have thus attracted great attention. The Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54...
| Autores principales: | , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
MDPI
2020
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7765665/ https://www.ncbi.nlm.nih.gov/pubmed/33339159 http://dx.doi.org/10.3390/ma13245733 |
| _version_ | 1783628539894956032 |
|---|---|
| author | He, Tiancheng Lv, Caihuan Li, Wenhao Huang, Guohua Hu, Zhihui Xu, Jianmei |
| author_facet | He, Tiancheng Lv, Caihuan Li, Wenhao Huang, Guohua Hu, Zhihui Xu, Jianmei |
| author_sort | He, Tiancheng |
| collection | PubMed |
| description | The electronics related to the fifth generation mobile communication technology (5G) are projected to possess significant market potential. High dielectric constant microwave ceramics used as filters and resonators in 5G have thus attracted great attention. The Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) ceramic system has aroused people’s interest due to its underlying excellent microwave dielectric properties. In this paper, the relationships between the dielectric constant, Nd-doped content, sintering temperature and the density of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) ceramics were studied. The linear regression equation was established by statistical product and service solution (SPSS) data analysis software, and the factors affecting the dielectric constant have been analyzed by using the enter and stepwise methods, respectively. It is found that the model established by the stepwise method is practically significant with Y = −71.168 + 6.946x(1) + 25.799x(3), where Y, x(1) and x(3) represent the dielectric constant, Nd content and the density, respectively. According to this model, the influence of density on the dielectric constant is greater than that of Nd doping concentration. We bring the linear regression analysis method into the research field of microwave dielectric ceramics, hoping to provide an instructive for the optimization of ceramic technology. |
| format | Online Article Text |
| id | pubmed-7765665 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2020 |
| publisher | MDPI |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-77656652020-12-27 The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis He, Tiancheng Lv, Caihuan Li, Wenhao Huang, Guohua Hu, Zhihui Xu, Jianmei Materials (Basel) Article The electronics related to the fifth generation mobile communication technology (5G) are projected to possess significant market potential. High dielectric constant microwave ceramics used as filters and resonators in 5G have thus attracted great attention. The Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) ceramic system has aroused people’s interest due to its underlying excellent microwave dielectric properties. In this paper, the relationships between the dielectric constant, Nd-doped content, sintering temperature and the density of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) ceramics were studied. The linear regression equation was established by statistical product and service solution (SPSS) data analysis software, and the factors affecting the dielectric constant have been analyzed by using the enter and stepwise methods, respectively. It is found that the model established by the stepwise method is practically significant with Y = −71.168 + 6.946x(1) + 25.799x(3), where Y, x(1) and x(3) represent the dielectric constant, Nd content and the density, respectively. According to this model, the influence of density on the dielectric constant is greater than that of Nd doping concentration. We bring the linear regression analysis method into the research field of microwave dielectric ceramics, hoping to provide an instructive for the optimization of ceramic technology. MDPI 2020-12-16 /pmc/articles/PMC7765665/ /pubmed/33339159 http://dx.doi.org/10.3390/ma13245733 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). |
| spellingShingle | Article He, Tiancheng Lv, Caihuan Li, Wenhao Huang, Guohua Hu, Zhihui Xu, Jianmei The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis |
| title | The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis |
| title_full | The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis |
| title_fullStr | The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis |
| title_full_unstemmed | The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis |
| title_short | The Dielectric Constant of Ba(6−3x)(Sm(1−y)Nd(y))(8+2x)Ti(18)O(54) (x = 2/3) Ceramics for Microwave Communication by Linear Regression Analysis |
| title_sort | dielectric constant of ba(6−3x)(sm(1−y)nd(y))(8+2x)ti(18)o(54) (x = 2/3) ceramics for microwave communication by linear regression analysis |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7765665/ https://www.ncbi.nlm.nih.gov/pubmed/33339159 http://dx.doi.org/10.3390/ma13245733 |
| work_keys_str_mv | AT hetiancheng thedielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT lvcaihuan thedielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT liwenhao thedielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT huangguohua thedielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT huzhihui thedielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT xujianmei thedielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT hetiancheng dielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT lvcaihuan dielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT liwenhao dielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT huangguohua dielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT huzhihui dielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis AT xujianmei dielectricconstantofba63xsm1yndy82xti18o54x23ceramicsformicrowavecommunicationbylinearregressionanalysis |