Qifa Yao scite author profile

Qifa Yao

4Publications

21Citation Statements Received

93Citation Statements Given

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Affiliations

Wageningen University & Research, Beijing Institute of Technology

Publications

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The mechanical behaviors of epoxy-terminated hyperbranched polyester (E-HBP) as toughener in different epoxy resins

Xia

Yang

et al. 2018

Adv Compos Hybrid Mater

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Using epoxy-terminated hyperbranched polymer (E-HBP) to modify epoxy resin (EP) is an effective way to improve the toughness of EP. In the present study, two different epoxy resin systems with E-HBP are researched: a commercial diglycidyl ether bisphenol A (DGEBA) resin with anhydride as curing agent and a tetraglycidyl diaminodiphenyl methane (TGDDM) resin with diamine as curing agent. Characterization results show that the addition of E-HBP could improve the mechanical properties of the two epoxy resin systems, such as tensile strength, elongation, and modulus of elasticity. Meanwhile, the glass transition temperature (T g ) of the two systems does not decrease. However, the morphology of the tensile fracture surfaces of the two modified systems shows different behaviors. Significant plastic deformation could be observed in the fracture surfaces of the modified DGEBA/anhydride system, and particle cavitations are clearly shown in the fracture surfaces of the modified TGDDM/ diamine systems. The analysis of the tensile fracture surfaces suggests that firstly E-HBP participates in the curing process of the modified resin systems, followed by the chemical-induced phase separation; finally, a gradient transition interface layer (GTIL) is formed. Apart from these, during the external loading process, the mechanical behaviors (deformation or cavitation) of the separated E-HBP particles in the modified epoxy resins are affected by the properties of the epoxy matrix itself.

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Upgrading ammonia-nitrogen from manure into body proteins in black soldier fly larvae

Parodi

Yao

Gerrits

et al. 2022

Resources, Conservation and Recycling

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Preparation of Bi2O3/Al Core-Shell Energetic Composite by Two-Step Ball Milling Method and Its Application in Solid Propellant

et al. 2019

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In this article, Bi2O3/Al high-density energetic composites with a core-shell structure were prepared by a two-step ball milling method using a common planetary ball milling instrument, and their morphology, structure, and properties were characterized in detail. Through a reasonable ratio design and optimization of the ball milling conditions, the density of the Bi2O3/Al core-shell energetic composite is increased by about 11.3% compared to that of the physical mixed sample under the same conditions. The DSC (Differential Scanning Calorimetry) test also showed that the exothermic quantity of the thermite reaction of the energetic composite reached 2112.21 J/g, which is very close to the theoretical exothermic quantity. The effect of Bi2O3/Al core-shell energetic composite on the energy performance of insensitive HTPE propellant was further studied. The theoretical calculation results showed that replacing the partial Al with Bi2O3/Al core-shell energetic composite can make the density of propellant reach 2.056 g/cm3, and the density specific impulse reach 502.3 s·g/cm3, which is significantly higher than the density and density specific impulse of the conventional composite solid propellant. The thermal test showed that the explosive heat of the HTPE (Hydroxyl terminated polyether) propellant also increased with the increase of the content of Bi2O3/Al core-shell energetic composite.

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Research and application of a new type of aqueduct concrete non-destructive inspection robot based on the principle of coherent frequency

Huang

Yao²,

Zhao³

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

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The concrete aqueduct has some quality problems such as lacuna and cavity during construction or operation, which seriously affects the safety of aqueduct operation. How to quickly detect the defects of aqueduct is of great significance to provide the basis for the repair and reinforcement of aqueduct. In this paper, based on the coherent frequency method, the automatic walking robot device for concrete nondestructive testing is integrated and assembled. Through wireless communication, the automatic excitation, acquisition and imaging of elastic wave are completed, so as to realize the rapid detection of uniformity and compactness defects of aqueduct concrete structure. Through the test and engineering demonstration application, the detection results are reliable, and the detection efficiency is improved by more than 50%. And the follow-up improvement plan of the system hardware should strengthen the maneuverability of the car, realize precise positioning, strengthen the energy of the seismic source, and improve the overall reliability of the system.

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Qifa Yao

The mechanical behaviors of epoxy-terminated hyperbranched polyester (E-HBP) as toughener in different epoxy resins

Upgrading ammonia-nitrogen from manure into body proteins in black soldier fly larvae

Preparation of Bi2O3/Al Core-Shell Energetic Composite by Two-Step Ball Milling Method and Its Application in Solid Propellant

Research and application of a new type of aqueduct concrete non-destructive inspection robot based on the principle of coherent frequency

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