Xinglong Fang scite author profile

Xinglong Fang

4Publications

8Citation Statements Received

33Citation Statements Given

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Southeast University

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Study on microstructure, rheology and thermal stability of cement epoxy asphalt mortar multiphase materials

Fang

Chen

Jiao

et al. 2013

Magazine of Concrete Research

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The effect of modified epoxy asphalt emulsion on the fluidity and microstructure of fresh cement modified asphalt emulsion binder was assessed. Various analytical instruments, such as X-ray diffraction, scanning electron microscopy and environmental scanning electron microscopy, Brookfield viscometer and differential scanning calorimetry were used to investigate the microstructure formation and development of cement epoxy asphalt emulsion, as well as the rheological properties, microstructure and thermal stability of cement epoxy asphalt mortar (CEAM). The results indicated that addition of asphalt emulsion and epoxy resin to cement paste greatly increased fluidity and improved capability of fluidity retention, while delaying the cement hydrating process. The amount of modified epoxy asphalt emulsion and epoxy resin introduced into the cement paste generally correlated with the length of the cement hydration induction period. The microstructure formation and development of CEAM consisted of several stages, including attachment of modified epoxy asphalt to cement particles, emulsion splitting and cement hydration thereby. Within CEAM, modified epoxy asphalt formed a macromolecular gel network structure, which interpenetrated with cement hydration products to establish an organic-inorganic composite structure. Fresh CEAM exhibited good fluidity within 45 min, and also had better thermal stability than cement asphalt mortar at elevated temperatures.

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Numerical simulations of shock/obstacle interactions using an improved ghost-cell immersed boundary method

Zhang

Fang²,

Zou

et al. 2019

Computers & Fluids

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Unsupervised Quantitative Assessment of Furnace Combustion Process Based on Flame Images and Att-Scae Model

Liu¹,

Li²,

Fang³

et al. 2023

Preprint

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Synthesis of Controllable Imidazole Based Partly Ionic-Liquid Polymers

Zhang¹,

Fang²

2013

Asian J. Chem.

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The ionic-liquid polymers, p [vbim][PF6], based on the conventional ionic liquid and the ones, p[vpNH2im][PF6], based on the taskspecific ionic liquid have been synthesized. The ionic-liquid-structure segment mole fraction of the polymers could be controlled by adjusting the reactants' mole fraction. The ionized segment fractions in p[vmim]PF6 were 19.7, 38.5 and 85.0 % at the condition of the mole fractions of 1-bromobutane to imidazole unit in the reaction mixture were 0.2, 0.5 and 1.2, respectively. And the latter was 78.1 % at 3-bromopropylamine hydrobromide to imidazole unit in the reaction mixture was 1.2. Thermal analysis indicated that the polymers had good thermal stability and the grafted chain had little effects on the polymer's glass transition temperatures.

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Xinglong Fang

Study on microstructure, rheology and thermal stability of cement epoxy asphalt mortar multiphase materials

Numerical simulations of shock/obstacle interactions using an improved ghost-cell immersed boundary method

Unsupervised Quantitative Assessment of Furnace Combustion Process Based on Flame Images and Att-Scae Model

Synthesis of Controllable Imidazole Based Partly Ionic-Liquid Polymers

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