This is a paper to be published in EI Journal of Electrical Systems.
Interdisciplinary Perspective in the Paper can be inlcluded. can also be modified based on your own research.
Since the research topic involves polyolefin materials, electrical systems, and talent development, adopting an interdisciplinary perspective is crucial for enhancing the study’s academic value. The following aspects should be carefully addressed:
1. Integration of Material Science and Electrical Engineering
- Explain how polyolefin materials contribute to electrical insulation, dielectric properties, and system performance.
- Provide a comparative analysis of polyolefins with other commonly used electrical insulation materials, such as epoxy resins, silicones, and ceramics.
- Discuss the challenges of polyolefin degradation, thermal stability, and long-term reliability in high-voltage applications.
2. Bridging Engineering Applications with Talent Development
- Highlight the importance of interdisciplinary education for engineers working in the electrical industry.
- Explore how knowledge of polymer science can enhance the problem-solving skills of electrical engineers, leading to better material selection and design.
- Provide recommendations for curriculum improvements, such as introducing polymer-based electrical insulation studies in electrical engineering courses.
3. Impact of Digital and Intelligent Technologies on Polyolefin Research
- Address the role of AI, machine learning, and computational modeling in optimizing polyolefin material properties.
- Discuss how modern simulation tools (e.g., COMSOL, ANSYS, or MATLAB) can improve the understanding of material behavior in electrical systems.
- Analyze how smart grids and energy storage technologies may influence the future demand for advanced insulation materials.