Gangwei Sun scite author profile

Gangwei Sun

2Publications

44Citation Statements Received

105Citation Statements Given

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Dow Chemical (China)

Publications

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Effect of phase compatibility on the foaming behavior of LDPE/HDPE and LDPE/PP blends with subcritical CO2 as the blowing agent

Wan

Sun

Gao

et al. 2017

The Journal of Supercritical Fluids

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Please cite this article in press as: C. Wan, et al., Effect of phase compatibility on the foaming behavior of LDPE/HDPE and LDPE/PP blends with subcritical CO 2 as the blowing agent, J. Supercrit. Fluids (2016), http://dx.a b s t r a c t Low Density Polyethylene (LDPE) is blended with High Density Polyethylene (HDPE) and three types of Polypropylene (PP) having different melting index (MI), respectively. The compatibility of LDPE/HDPE blends is characterized by using thermal analysis and rheology methods. Differential scanning calorimeter (DSC) traces and rheology methods confirmed their good compatibility. For LDPE/PP blends, the incompatibility has been widely acknowledged in the literature. The distribution of the PP phase in the blend is investigated using polarized optical microscopy (POM). It is found that the phase structure is closely related to the blend composition and the viscosity ratio of the blend components. Extrusion foaming of the blends is conducted using a single extruder fitted with a CO 2 gas injection system. Under similar foaming conditions, the compatible LDPE/HDPE blends all generated a uniform cell morphology and achieved roughly the same expansion ratio. Although the incompatible interface is beneficial to cell nucleation, the LDPE/PP blends did not achieve satisfactory foaming performance. To determine the differences in the foaming behavior of the two blends, the viscoelastic properties and diffusion coefficients of supercritical CO 2 in the blends, were accurately measured via rheology and magnetic suspension balance (MSB) methods. The results indicate that the viscoelastic properties did not show a dominant role in determining the foaming behavior, by contrast, CO 2 diffusion is found to be the key factor affecting foaming performance especially in the case of a co-continuous phase structure.

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Rheological properties of HDPE and LDPE at the low-frequency range under supercritical CO2

Wan

Sun

Liu

et al. 2017

The Journal of Supercritical Fluids

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The effects of temperature, pressure (using helium as the pressurizing medium) and dissolved CO 2 concentration on the rheological properties of linear high-density polyethylene (HDPE) and branched-chain low-density polyethylene (LDPE) were carefully investigated using a high-pressure rheometer. The results showed that at low pressure, the rheology of the PEs was sensitive to pressure increase. As the pressure increased to higher values, the rheology leveled off for HDPE and increased for LDPE. Under supercritical CO 2 , the plasticization of the dissolved gas contributed primarily to the thickening effect of pressure. Furthermore, the loss factors decreased with increasing pressure and increased with increasing CO 2 pressure. Lastly, the effect of gas concentration was described by the Fujita-Kishimoto model on the assumption that the coupled effect of pressure and CO 2 concentration could be separated.

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Gangwei Sun

Effect of phase compatibility on the foaming behavior of LDPE/HDPE and LDPE/PP blends with subcritical CO2 as the blowing agent

Rheological properties of HDPE and LDPE at the low-frequency range under supercritical CO2

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