Mechanical Performance and Analysis of Bismuth Telluride (Bi2Te3) Thermal Barrier Coating

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Ajay Kumar Prajapati; Amitesh Paul

Mechanical Performance and Analysis of Bismuth Telluride (Bi2Te3) Thermal Barrier Coating

Authors: Ajay Kumar Prajapati, Amitesh Paul

Unique Paper ID: 147365
PageNo: 243-247

Keywords: Bismuth Telluride Nanomaterial Figure of Merit Finite Element Method Load-Displacement

Abstract:
In this experiment, we analysed the purpose of this dissertation is to model and simulate Bismuth Telluride (Bi2Te3) thermal barrier coating nano-fabrication process on Bismuth Telluride coated high speed material by finite element method and to compare its results with experimental other barrier coating nano-fabrication results. A two-dimensional and three-dimensional axisymmetric model is simulated in sequential and iterative application using MATLAB. This dissertation is presented to show the use of finite element analysis (FEA) for the thermoelectric performance of micro-scale and nano-scale, self-assembled devices. Previous research has demonstrated an optimal performance at scales inaccessible to pick and place manufacturing and thin film deposition methods. The finite element simulation is modeled as stiff structure of Bismuth Telluride (Bi2Te3) material. The designed models have the aptitude and ability for simulation of the observed loading and unloading curves and the occurrence of coating distortion during indentation. Developed load-displacement curve obtained from finite element simulations are compared with the other load-displacement curves estimated by the experimental result. Finally, the outcome of finite element simulation presents that there is excellent performance with the experiment results.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{147365,
        author = {Ajay Kumar Prajapati and Amitesh Paul},
        title = {Mechanical Performance and Analysis of Bismuth Telluride (Bi2Te3) Thermal Barrier Coating},
        journal = {International Journal of Innovative Research in Technology},
        year = {},
        volume = {5},
        number = {7},
        pages = {243-247},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=147365},
        abstract = {In this experiment, we analysed the purpose of this dissertation is to model and simulate Bismuth Telluride (Bi2Te3) thermal barrier coating nano-fabrication process on Bismuth Telluride coated high speed material by finite element method and to compare its results with experimental other barrier coating nano-fabrication results. A two-dimensional and three-dimensional axisymmetric model is simulated in sequential and iterative application using MATLAB. This dissertation is presented to show the use of finite element analysis (FEA) for the thermoelectric performance of micro-scale and nano-scale, self-assembled devices. Previous research has demonstrated an optimal performance at scales inaccessible to pick and place manufacturing and thin film deposition methods. The finite element simulation is modeled as stiff structure of Bismuth Telluride (Bi2Te3) material. The designed models have the aptitude and ability for simulation of the observed loading and unloading curves and the occurrence of coating distortion during indentation. Developed load-displacement curve obtained from finite element simulations are compared with the other load-displacement curves estimated by the experimental result. Finally, the outcome of finite element simulation presents that there is excellent performance with the experiment results.},
        keywords = {Bismuth Telluride, Nanomaterial, Figure of Merit, Finite Element Method, Load-Displacement},
        month = {},
        }

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Cite This Article

Prajapati, A. K., & Paul, A. (). Mechanical Performance and Analysis of Bismuth Telluride (Bi2Te3) Thermal Barrier Coating. International Journal of Innovative Research in Technology (IJIRT), 5(7), 243–247.

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