This track focuses on the latest advancements in understanding thermal conductivity and the mechanisms of heat transfer in various materials. Researchers are invited to present experimental and theoretical studies that explore the implications of these properties in thermal engineering applications.

This session will delve into the properties and applications of phase change materials in thermal energy storage and management. Contributions are encouraged that examine the thermophysical characteristics and performance of these materials in real-world scenarios.

This track aims to explore the role of viscosity in thermal-fluid interactions and its impact on system performance. Papers that investigate the relationship between fluid dynamics and thermal properties in engineering applications are particularly welcome.

This session will highlight innovative methods for characterizing thermophysical properties of materials. Researchers are invited to share their findings on experimental techniques and modeling approaches that enhance material performance in thermal applications.

This track focuses on computational approaches for modeling and simulating thermophysical properties of materials. Contributions that integrate theoretical models with experimental data to predict material behavior under various thermal conditions are encouraged.

This session will cover cutting-edge thermal analysis techniques used to assess material properties. Researchers are invited to present their work on methodologies such as differential scanning calorimetry and thermogravimetric analysis.

This track aims to discuss practical applications of thermal engineering in various industries, including energy, manufacturing, and materials processing. Papers that showcase case studies or innovative solutions to thermal challenges in industrial settings are welcome.

This session will explore novel techniques for measuring heat capacity and their implications for material performance. Researchers are encouraged to present advancements that enhance the accuracy and efficiency of heat capacity assessments.

This track will examine the significance of thermal diffusivity in material performance and thermal management. Contributions that analyze the interplay between thermal diffusivity and other thermophysical properties are particularly encouraged.

This session will focus on the principles of property-based design in the context of thermal engineering. Researchers are invited to discuss how thermophysical properties can be leveraged to optimize material selection and system design.

This track will investigate the performance of thermal materials under extreme environmental conditions. Contributions that assess the durability and reliability of materials in high-temperature or high-pressure scenarios are highly encouraged.