▎ 摘 要
NOVELTY - The method involves obtaining parameter data of multiple groups of experimental products and a surface graphene coating (S102). An experimental product initial temperature value is obtained (S104). A real-time temperature value of the experimental product is obtained after a preset time interval. A temperature difference value between the initial temperature value and the real time temperature value is calculated. A temperature change rate of the experimental product is calculated based on the temperature difference and the preset time interval. An efficiency detection model is constructed based on the temperature difference, the temperature change, the parameter data of the experimental products and the surface graphene coated parameter data. Data of a to-be-detected product is obtained. The data of the to-be-detected product is input (S106) into the efficiency detection model for processing and analyzing the data of the to-be-detected product. An analysis result is output. USE - Method for detecting radiating performance of product with graphene coating for use in household appliance. Uses include but are not limited to heating, radiating component of industrial device such as air conditioner radiator, household radiator, heating system radiator, LED lamp radiator and heat exchange device radiator. ADVANTAGE - The method enables detecting heat dissipation performance of the product with graphene coating in an effective and quick manner, and thus reducing economic loss, and training the efficiency detection model to improve accuracy of the radiating performance detection in an efficient manner. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a system for detecting radiating performance of product with graphene coating. DESCRIPTION OF DRAWING(S) - The drawing shows a flow diagram illustrating a method for detecting radiating performance of product with graphene coating. (Drawing includes non-English language text). Obtaining parameter data of multiple groups of experimental products and a surface graphene coating (S102) Obtaining experimental product initial temperature value (S104) Inputting data of to-be-detected product into efficiency detection model for processing and analyzing data of to-be-detected product (S106)