Jiuming Wan scite author profile

Using phase change materials (PCMs) in building envelopes became a reliable method to improve indoor comfort and reduce buildings’ energy consumption. This research developed molecular-bridged expanded graphite (EG)/polyethylene glycol (PEG) composite PCMs (m-EPs) to conserve energy in buildings. The m-EPs were prepared through a vacuum absorption technique, and a titanate coupling agent was used to build a molecular bridge between EG and PEG. SEM, mercury intrusion porosimetry (MIP), the leakage test, microcalorimetry, X-ray photoelectron spectroscopy (XPS), and Fourier transform infrared spectroscopy (FT-IR) were conducted to characterize the morphology, pore structure, absorbability, and modifying effects of the m-EPs. The phase change temperature, latent heat, thermal stability, and thermal conductivity of the m-EPs were determined by a differential scanning calorimeter (DSC), TGA, and a thermal constants analyzer. Results showed that the maximum mass ratio of PEG to EG without leakage was 1:7, and a stable connection was established in the m-EPs after modification. Compared with the unmodified EPs, the supercooling degree of the m-EPs reduced by about 3 °C, but the latent heats and initial decomposition temperatures increased by approximately 10% and 20 °C, respectively, which indicated an improvement in the thermal energy storage efficiency. The thermal conductivities of the m-EPs were 10 times higher than those of the pristine PEGs, which ensured a rapid responding to building temperature fluctuations.

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Utilization of gneiss coarse aggregate and steel slag fine aggregate in asphalt mixture

Chen

Wen

et al. 2015

Construction and Building Materials

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Thermal and rheological performance of asphalt binders modified with expanded graphite/polyethylene glycol composite phase change material (EP-CPCM)

Zhang

Chen

et al. 2019

Construction and Building Materials

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Preparation of expanded graphite/polyethylene glycol composite phase change material for thermoregulation of asphalt binder

Zhang

Chen

et al. 2018

Construction and Building Materials

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Characteristics of Ceramic Fiber Modified Asphalt Mortar

Wan

Xiao

et al. 2016

Materials

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Ceramic fiber, with a major composition of Al 2 O 3 and SiO 2 , has advantages of stability at relatively high temperature, big specific surface area and resistance to external mechanical vibration. It has the potential contribution of improving the rutting resistance and temperature sensitivity of modified asphalt binder by proper modification design. In this research, ceramic fiber was introduced into both pen 60/80 and pen 80/100 asphalt binder by different weight ratios. An asphalt penetration test, softening point test, ductility test and dynamic viscoelastic behavior were conducted to characterize and predict the ceramic fiber modified asphalt mortar (CFAM). Research results indicated that the ceramic fiber has a great effect on reinforcement of asphalt, which makes the asphalt stiffer so that the asphalt can only undertake less strain under the same stress. The heat insulation effect of the ceramic fiber will improve the temperature stability. Complex modulus and phase angle results indicate that the ceramic fiber can significantly enhance the high temperature resistance of soft binder.

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Enhanced ice and snow melting efficiency of steel slag based ultra-thin friction courses with steel fiber

Wan

Xiao

et al. 2019

Journal of Cleaner Production

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The Effect of Ultraviolet Radiation on Bitumen Aging Depth

Liu

et al. 2018

Materials

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The aging effect of ultraviolet (UV) radiation on bitumen has gained increasing attention from researchers, resulting in the emergence of a new method to simulate the UV aging that occurs during the service life of bitumen. However, the UV aging degree is closely related to bitumen thickness and the effect of UV radiation on aging depth is not clear. The relationship between ultraviolet (UV) radiation and bitumen UV aging depth was investigated in this paper. Three groups of samples were UV aged using different aging procedures to investigate the bitumen aging mechanism of UV radiation. The results from the first group showed that UV aging depth increased along with aging time. After aging for five hours, the complex modulus of the second and third layers increased. The second group’s results indicated that the aging effect of ozone was small and that the increase in aging depth was uncorrelated with ozone. The results from the third group showed that the transmittance of bitumen increased after UV aging and that the real reason why aging depth increased was permeation.

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Jiuming Wan

Effect of hydration and silicone resin on Basic Oxygen Furnace slag and its asphalt mixture

Preparation and Thermal Properties of Molecular-Bridged Expanded Graphite/Polyethylene Glycol Composite Phase Change Materials for Building Energy Conservation

Utilization of gneiss coarse aggregate and steel slag fine aggregate in asphalt mixture

Thermal and rheological performance of asphalt binders modified with expanded graphite/polyethylene glycol composite phase change material (EP-CPCM)

Preparation of expanded graphite/polyethylene glycol composite phase change material for thermoregulation of asphalt binder

Characteristics of Ceramic Fiber Modified Asphalt Mortar

Enhanced ice and snow melting efficiency of steel slag based ultra-thin friction courses with steel fiber

The Effect of Ultraviolet Radiation on Bitumen Aging Depth

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