Abstract
The assessment of carbon nanotube (CNT)-polymer composite materials entails examining several crucial parameters to comprehend their potential applications and performance. These composites present a promising avenue for fabricating materials with improved mechanical, electrical, and thermal characteristics. Fundamental evaluation criteria encompass dispersion quality, mechanical behaviour, electrical conductivity, thermal attributes, chemical resistance, and processing adaptability. The uniform dispersion of CNTs within the polymer matrix and the extent of CNT agglomeration profoundly influence the composite's properties. Mechanical evaluations concentrate on factors such as tensile strength, flexural modulus, and impact resistance, which dictate the material's structural robustness. Understanding electrical conductivity enhancement and percolation threshold aids in assessing the composite's applicability in electronic fields. Thermal properties, including conductivity, stability, and expansion coefficients, are pivotal for applications requiring effective thermal management. Chemical resistance assessments guarantee the composite's durability in diverse environmental conditions. Moreover, evaluating processing convenience, compatibility with manufacturing techniques, and cost-effectiveness is crucial for ensuring scalability and commercial feasibility. The ARAS (Analytical Hierarchy Process and Remote Sensing) methodology represents an innovative approach that merges the principles of with remote sensing techniques to streamline decision-making processes across diverse domains. This methodology capitalizes on the strengths of which furnishes a systematic framework for multi-criteria decision-making, and remote sensing, which furnishes valuable spatial insights from satellite or aerial imagery. In this exposition, we will explore the foundational aspects. Dispersion Quality, Mechanical Performance, Electrical Conductivity, Thermal Conductivity, Chemical Resistance and Processing Ease and Compatibility. Mechanical Properties, Electrical Conductivity, Thermal Properties, Dispersion and Interface Quality, Chemical Resistance and Environmental Impact. the Rank in Assessment of Carbon Nanotube-Polymer Composite Materials for Analysis using ARAS Method. Processing Ease and Compatibility is showing the highest value and Thermal Conductivity is showing the lowest value.