Your search keyword '"Yu-Jiao Chang"' showing total 2 results

1. The mechanism of different thermoregulation types of composite shape-stabilized phase change materials used in asphalt pavement

Author

Xue-yan Zhou, Yu-jiao Chang, Junping Ren, Ning Li, Biao Ma, and Wei Si

Subjects

Exothermic reaction, Materials science, Composite number, Enthalpy, Mixing (process engineering), Thermodynamics, Building and Construction, Thermoregulation, Endothermic process, Phase-change material, chemistry.chemical_compound, chemistry, General Materials Science, Civil and Structural Engineering, Tetradecane

Abstract

Considered the temperature distress forms and the impacts of temperature on asphalt pavement, three temperature thermoregulations were proposed to solve the asphalt pavement temperature problems initiatively. Based on the properties of phase change thermoregulation agent, thermoregulation types of composite phase change materials (CPCMS) were studied and the values of appropriate phase change temperature were determined by differential scanning calorimetric (DSC) test. Results show that for high temperature thermoregulation, the phase change temperature range is 35–50 °C, in which with the 58# paraffin proportion increasing, the phase change enthalpy increases linearly and the phase change temperature grows exponentially. As for the low temperature thermoregulation, the phase change temperature range is −5 °C to 5 °C, in which with the Tetradecane proportion increasing, the phase change enthalpy grows linearly, while phase change temperature increases exponentially. In terms of the mixing temperature thermoregulation, the phase change temperature range is 5–35 °C, in which when Tetradecane mass ratio are fixed as 30%, 40%, and 50%, with the 58# paraffin proportion increasing, high temperature enthalpy grows and phase change temperature increases linearly; when 58# paraffin mass ratio are fixed as 30%, 40%, and 50%, with the Tetradecane proportion increasing, low temperature enthalpy grows approximate linearly, exothermic (endothermic) high phase change temperature decreases (grows) slight linearly. Finally, this paper recommends composites mass proportion to different thermoregulations types and the corresponding enthalpy values, which intends to solve the worldwide problem of temperature distresses in asphalt pavement in the future.

Published

2015

2. Preparation of composite shape-stabilized phase change materials for highway pavements

Author

Biao Ma, Yu-jiao Chang, Junping Ren, Zhanping You, Jiang Liu, and Sanjeev Adhikari

Subjects

Materials science, business.industry, Composite number, Building and Construction, Phase-change material, Dispersant, chemistry.chemical_compound, Phase change, Ethyl cellulose, chemistry, Ultraviolet light, General Materials Science, Composite material, business, Material properties, Thermal energy, Civil and Structural Engineering

Abstract

A phase change material (PCM) has a significant capacity to store thermal energy. Because of the complex and tough environment of a highway such as traffic load, drainage, and ultraviolet light, the recent studies on PCM cannot be directly applied to highway construction. The composite shape-stabilized phase change material (CPCM) was prepared by using a membrane layer to encapsulate the PCM to ensure stability. Preparation of the CPCM in highway construction discussed in this research includes: (a) CPCM material properties, (b) proper proportioning for preparing the CPCM by Scanning Electronic Microscope (SEM), Differential Scanning Calorimetric (DSC) and the orthogonal test. CPCM was developed using Teradecane, silica, Ethyl Cellulose (EC) and a dispersant. Performance of the CPCM due to the influence of EC and a dispersant also studied to determine exact proportions used in the CPCM. The optimized ratio of Teradecane, silica, EC and dispersant is 1:1:0.1:0.1. Phase change enthalpy of the PCM was calculated to be 178 J/g and the phase change temperature was determined to be 5.8 °C.

Published

2013