In this manuscript a comparative study on Bi<sub>2</sub>O<sub>3</sub>/polystyrene and Bi<sub>2</sub>O<sub>3</sub>/PVDF composites has been executed via analysis of struc...In this manuscript a comparative study on Bi<sub>2</sub>O<sub>3</sub>/polystyrene and Bi<sub>2</sub>O<sub>3</sub>/PVDF composites has been executed via analysis of structural, bonding, surface morphology and dielectric response of composites for energy storage. The composites have been synthesized using solution cast method by varying concentrations of Bi<sub>2</sub>O<sub>3</sub> (BO = 1 - 5 mw%) into polystyrene (PS) and polyvinylidene fluoride (PVDF) polymers respectively. X-ray diffraction confirms the generation of crystallinity, Fourier transform infrared (FT-IR) spectroscopy confirms bonding behavior and scanning electron microscopy (SEM) confirms uniform distribution of Bi<sub>2</sub>O<sub>3</sub> (BO) in PS and PVDF polymers. Impedance spectroscopy has been employed for determination of dielectric response of the fabricated composites. The dielectric constant has been found to be increased as 1.4 times of pristine PS to BO<sub>5%</sub>PS<sub>95%</sub> composites and 1.8 times of pristine PVDF to BO<sub>5%</sub>PVDF<sub>95%</sub> composites respectively. These high dielectric composite electrodes are useful for flexible energy storage devices.展开更多
A novel In203/Bi24O31Br10 composite photocatalyst, where In2O3 nanoparticleswith the diameter of about 5-10 nm were tightly attached on the surface of Bi24O31Br10 plates, wasprepared by using hydrolysis, impregnation ...A novel In203/Bi24O31Br10 composite photocatalyst, where In2O3 nanoparticleswith the diameter of about 5-10 nm were tightly attached on the surface of Bi24O31Br10 plates, wasprepared by using hydrolysis, impregnation method and post-thermal process. Photocatalyticactivity was evaluated by the degradation of Rhodamine B under the visible light irradiation.Effects of the contents of In203 nanoparticles on the optical property and photocatalytic activity of In203/Bi24O31Br10 composite were also investigated. Compared with neat In203 and Bi24O31Brlomaterials, 15In203/Bi24O31Br10 composite exhibits the best photocatalytic activity owing to theefficient separation of photogenerated electron and hole pairs, which is evidenced byphotoluminence spectra. More than 95% of Rhodamine B solution can be degraded by15In203/Bi24O31Brlo sample in 30 min.展开更多
Bi has a good modification effect on the hypoeutectic Al-Si alloy,and the morphology of eutectic Si changes from coarse acicular to fine fibrous.Based on the similarity between Mg2Si and Si phases in crystalline struc...Bi has a good modification effect on the hypoeutectic Al-Si alloy,and the morphology of eutectic Si changes from coarse acicular to fine fibrous.Based on the similarity between Mg2Si and Si phases in crystalline structure and crystallization process,the present study investigated the effects of different concentrations of Bi on the microstructure,tensile properties,and fracture behavior of cast Al-15wt.%Mg2Si in-situ metal matrix composite.The results show that the addition of the proper amount of Bi has a significant modification effect on both primary and eutectic Mg2Si in the Al-15wt.%Mg2Si composite.With an increase in Bi content from 0 to 1wt.%,the morphology of the primary Mg2Si is changed from irregular or dendritic to polyhedral shape;and its average particle size is significantly decreased from 70 to 6 μm.Moreover,the morphology of the eutectic Mg2Si phase is altered from flake-like to very short fibrous or dot-like.When the Bi addition exceeds 4.0wt.%,the primary Mg2Si becomes coarse again.However,the eutectic Mg2Si still exhibits the modified morphology.Tensile tests reveal that the Bi addition can improve the tensile strength and ductility of the material.Compared with those of the unmodified composite,the ultimate tensile strength and percentage elongation after fracture with 1.0wt.% Bi increase 51.2% and 100%,respectively.At the same time,the Bi addition changes the fracture behavior from brittle to ductile.展开更多
Two kinds of bi-metal composite parts (Sn-15%Pb and Pb-22%Sn bi-metal system, and Al-7%Si and SiCp/6061 MMC bi-metal system) were prepared by the strain-induced melt activated thixo-forging.The interfaces of the bi-me...Two kinds of bi-metal composite parts (Sn-15%Pb and Pb-22%Sn bi-metal system, and Al-7%Si and SiCp/6061 MMC bi-metal system) were prepared by the strain-induced melt activated thixo-forging.The interfaces of the bi-metal composites were observed by OM and SEM.The observations show that the semisolid metals keep independence during thixo-forging.The solid phases in the semisolid slurries maintain their original morphologies after thixo-forging.The liquid phases near the interface mix together and form a thin layer.The interfaces are bonded firmly with the metallurgical bonding.No oxide layers are found at the interfaces.Strengths of the interfaces were investigated by the micro-hardness test.The experimental results show that the composite interfaces have high strength.However, the agglomerated enhancing particles cause fine defect on the interface of the Al-7%Si and SiCp/6061 MMC bi-metal composite.展开更多
Bi/MnBi eutectic in situ composite was produced by unidirectional solid-ification technique.The eutectic has a quasi-regular structure,in which the MnBi fi-bre is V-shaped in cross section and rod-like in longitudinal...Bi/MnBi eutectic in situ composite was produced by unidirectional solid-ification technique.The eutectic has a quasi-regular structure,in which the MnBi fi-bre is V-shaped in cross section and rod-like in longitudinal section,the aspect ratio isabout 300.The formation mechanism of this V-shaped MnBi phase was studied bycrystallographic analysis.The conclusion is that the(1120)face is the closest packedone while the(1010)face is the next.展开更多
The problem considered is a mode Ⅲ crack lying parallel to the interface of an exponential-type functional graded material (FGM) strip bonded to a linear-type FGM substrate with infinite thickness. By applying the ...The problem considered is a mode Ⅲ crack lying parallel to the interface of an exponential-type functional graded material (FGM) strip bonded to a linear-type FGM substrate with infinite thickness. By applying the Fourier integral transform, the problem was reduced as a Cauchy singular integral equation with an unknown dislocation density function. The collocation method based on Chebyshev polynomials proposed by Erdogan and Gupta was used to solve the singular integral equation numerically. With the numerical solution, the effects of the geometrical and physical parameters on the stress intensity factor (SIF) were analyzed and the following conclusions were drawn: (a) The region affected by the interface or free surface varies with the material rigidity, and higher material rigidity will lead to bigger affected region. (b) The SIF of the crack in the affected region and parallel to the micro-discontinuous interface is lower than those of the weak discontinuous cases. Reducing the weak-discontinuity of the interface will be beneficial to decrease the SIF of the interface-parallel crack in the region affected by the interface. (c) The effect of the free surface on SIF is more remarkable than that of the interface, and the latter is still more notable than that of the material rigidity. When the effects of the interface and free surface are fixed, increase of the material rigidity will enhance the value of SIF.展开更多
The in-plane tensile behaviors of bi-axial warp-knitted(BWK) composites under quasi-static and high strain rates loading were experimentally analyzed in this article. The tensile tests were conducted along warp direct...The in-plane tensile behaviors of bi-axial warp-knitted(BWK) composites under quasi-static and high strain rates loading were experimentally analyzed in this article. The tensile tests were conducted along warp direction( 0°) and weft direction( 90°) at quasi-static rate of 0. 001 s^(-1) and high strain rates ranging from 1 450 to 2 540 s^(-1),respectively. It is found that the significant strain rate sensitivity can be observed in the stress-strain curves of BWK composites. The fracture morphologies of BWK composites demonstrate that the tensile failure modes are shear failure and fiber breakage under the quasi-static testing condition while interface failure and fibers pullout are at high strain rates.展开更多
With the rapid exhaustion of fossil energy, the demand for clean and renewable energy is urgently growing. Thermoelectric(TE) materials, which can directly convert waste heat into electrical energy, are attracting gre...With the rapid exhaustion of fossil energy, the demand for clean and renewable energy is urgently growing. Thermoelectric(TE) materials, which can directly convert waste heat into electrical energy, are attracting great attention to address the energy crisis [1–3].展开更多
Bi 0.5 Sb 1.5 Te 3/polyaniline composites were prepared by mechanical blending and in situ polymerization, and their transport properties were measured. It was found that for the composites with 1%, 3%, 5% and 7% poly...Bi 0.5 Sb 1.5 Te 3/polyaniline composites were prepared by mechanical blending and in situ polymerization, and their transport properties were measured. It was found that for the composites with 1%, 3%, 5% and 7% polyaniline (mass fraction) respectively, which were prepared by mechanical blending, the power factors decrease by about 30%, 50%, 55% and 65% compared with the Bi 0.5 Sb 1.5 Te 3 samples, which is mainly due to the remarkable decreases of the electrical conductivity. The electrical conductivity and power factor of the composites samples with 7% polyaniline prepared by in situ polymerization are higher by about 65% and 60%, respectively, than that of the corresponding samples prepared by mechanical blending.展开更多
Series Bi3NbO7/Bi2Zn(2/3)Nb(4/3)O7 (BN/BZN) composites were synthesized through a facile solid state reaction method. The products were characterized by X-ray diffraction(XRD), field emission scanning electron...Series Bi3NbO7/Bi2Zn(2/3)Nb(4/3)O7 (BN/BZN) composites were synthesized through a facile solid state reaction method. The products were characterized by X-ray diffraction(XRD), field emission scanning electron microscopy(FE-SEM) and UV-vis diffuse reflectance spectroscopy(DRS). When BN: BZN=0.1 mole ratio, the BN/BZN composite showed the best visible-light-driven photocatalytic performance, which decomposed nearly 100% of Rh B(10 ppm, p H=3-4) within 40 min. The results demonstrated that in-situ solid state synthesis of BN/BZN composites could be an efficient strategy to develop new photocatalyst for environmental remediation.展开更多
文摘In this manuscript a comparative study on Bi<sub>2</sub>O<sub>3</sub>/polystyrene and Bi<sub>2</sub>O<sub>3</sub>/PVDF composites has been executed via analysis of structural, bonding, surface morphology and dielectric response of composites for energy storage. The composites have been synthesized using solution cast method by varying concentrations of Bi<sub>2</sub>O<sub>3</sub> (BO = 1 - 5 mw%) into polystyrene (PS) and polyvinylidene fluoride (PVDF) polymers respectively. X-ray diffraction confirms the generation of crystallinity, Fourier transform infrared (FT-IR) spectroscopy confirms bonding behavior and scanning electron microscopy (SEM) confirms uniform distribution of Bi<sub>2</sub>O<sub>3</sub> (BO) in PS and PVDF polymers. Impedance spectroscopy has been employed for determination of dielectric response of the fabricated composites. The dielectric constant has been found to be increased as 1.4 times of pristine PS to BO<sub>5%</sub>PS<sub>95%</sub> composites and 1.8 times of pristine PVDF to BO<sub>5%</sub>PVDF<sub>95%</sub> composites respectively. These high dielectric composite electrodes are useful for flexible energy storage devices.
基金Projects(52274255,51674067)supported by the National Natural Science Foundation of ChinaProject(2020YFB2008702)supported by the National Key R&D Program of China+4 种基金Projects(N2201008,N2201004)supported by the Fundamental Research Funds for the Central Universities,ChinaProject(XLYC1807160)supported by the Liaoning Revitalization Talents Program,ChinaProject(2022M720025)supported by the China Postdoctoral Science FoundationProject supported by Postdoctoral Foundation of Northeastern University,ChinaProject(2022QNRC001)supported by the Young Elite Scientists Sponsorship Program by CAST,China。
基金supported by the Natural Science Foundation of Fujian Province(2016J01740)National Natural Science Foundation of China(21473096)the Outstanding Youth Scientific Research Cultivation Plan in Fujian Province University,and the guiding project of Fujian Province(2016Y0073)
文摘A novel In203/Bi24O31Br10 composite photocatalyst, where In2O3 nanoparticleswith the diameter of about 5-10 nm were tightly attached on the surface of Bi24O31Br10 plates, wasprepared by using hydrolysis, impregnation method and post-thermal process. Photocatalyticactivity was evaluated by the degradation of Rhodamine B under the visible light irradiation.Effects of the contents of In203 nanoparticles on the optical property and photocatalytic activity of In203/Bi24O31Br10 composite were also investigated. Compared with neat In203 and Bi24O31Brlomaterials, 15In203/Bi24O31Br10 composite exhibits the best photocatalytic activity owing to theefficient separation of photogenerated electron and hole pairs, which is evidenced byphotoluminence spectra. More than 95% of Rhodamine B solution can be degraded by15In203/Bi24O31Brlo sample in 30 min.
基金supported by the Key Laboratory Foundation of Liaoning Provincial Committee of Education under grant Nos.20060394 and 2009S053
文摘Bi has a good modification effect on the hypoeutectic Al-Si alloy,and the morphology of eutectic Si changes from coarse acicular to fine fibrous.Based on the similarity between Mg2Si and Si phases in crystalline structure and crystallization process,the present study investigated the effects of different concentrations of Bi on the microstructure,tensile properties,and fracture behavior of cast Al-15wt.%Mg2Si in-situ metal matrix composite.The results show that the addition of the proper amount of Bi has a significant modification effect on both primary and eutectic Mg2Si in the Al-15wt.%Mg2Si composite.With an increase in Bi content from 0 to 1wt.%,the morphology of the primary Mg2Si is changed from irregular or dendritic to polyhedral shape;and its average particle size is significantly decreased from 70 to 6 μm.Moreover,the morphology of the eutectic Mg2Si phase is altered from flake-like to very short fibrous or dot-like.When the Bi addition exceeds 4.0wt.%,the primary Mg2Si becomes coarse again.However,the eutectic Mg2Si still exhibits the modified morphology.Tensile tests reveal that the Bi addition can improve the tensile strength and ductility of the material.Compared with those of the unmodified composite,the ultimate tensile strength and percentage elongation after fracture with 1.0wt.% Bi increase 51.2% and 100%,respectively.At the same time,the Bi addition changes the fracture behavior from brittle to ductile.
基金Project(1343-71333000469) supported by the Funding of Graduate Student Training of Central South University,China
文摘Two kinds of bi-metal composite parts (Sn-15%Pb and Pb-22%Sn bi-metal system, and Al-7%Si and SiCp/6061 MMC bi-metal system) were prepared by the strain-induced melt activated thixo-forging.The interfaces of the bi-metal composites were observed by OM and SEM.The observations show that the semisolid metals keep independence during thixo-forging.The solid phases in the semisolid slurries maintain their original morphologies after thixo-forging.The liquid phases near the interface mix together and form a thin layer.The interfaces are bonded firmly with the metallurgical bonding.No oxide layers are found at the interfaces.Strengths of the interfaces were investigated by the micro-hardness test.The experimental results show that the composite interfaces have high strength.However, the agglomerated enhancing particles cause fine defect on the interface of the Al-7%Si and SiCp/6061 MMC bi-metal composite.
文摘Bi/MnBi eutectic in situ composite was produced by unidirectional solid-ification technique.The eutectic has a quasi-regular structure,in which the MnBi fi-bre is V-shaped in cross section and rod-like in longitudinal section,the aspect ratio isabout 300.The formation mechanism of this V-shaped MnBi phase was studied bycrystallographic analysis.The conclusion is that the(1120)face is the closest packedone while the(1010)face is the next.
基金the BK 21 Program of South Korea and the National Natural Science Foundation of China(No.50574097).
文摘The problem considered is a mode Ⅲ crack lying parallel to the interface of an exponential-type functional graded material (FGM) strip bonded to a linear-type FGM substrate with infinite thickness. By applying the Fourier integral transform, the problem was reduced as a Cauchy singular integral equation with an unknown dislocation density function. The collocation method based on Chebyshev polynomials proposed by Erdogan and Gupta was used to solve the singular integral equation numerically. With the numerical solution, the effects of the geometrical and physical parameters on the stress intensity factor (SIF) were analyzed and the following conclusions were drawn: (a) The region affected by the interface or free surface varies with the material rigidity, and higher material rigidity will lead to bigger affected region. (b) The SIF of the crack in the affected region and parallel to the micro-discontinuous interface is lower than those of the weak discontinuous cases. Reducing the weak-discontinuity of the interface will be beneficial to decrease the SIF of the interface-parallel crack in the region affected by the interface. (c) The effect of the free surface on SIF is more remarkable than that of the interface, and the latter is still more notable than that of the material rigidity. When the effects of the interface and free surface are fixed, increase of the material rigidity will enhance the value of SIF.
基金National Natural Science Foundations of China(Nos.11272087,11572085)Financial Supports from Foundation for the Fok Ying-Tong Education Foundation of China(No.141070)the Fundamental Research Funds for the Central Universities of China(No.170310103)
文摘The in-plane tensile behaviors of bi-axial warp-knitted(BWK) composites under quasi-static and high strain rates loading were experimentally analyzed in this article. The tensile tests were conducted along warp direction( 0°) and weft direction( 90°) at quasi-static rate of 0. 001 s^(-1) and high strain rates ranging from 1 450 to 2 540 s^(-1),respectively. It is found that the significant strain rate sensitivity can be observed in the stress-strain curves of BWK composites. The fracture morphologies of BWK composites demonstrate that the tensile failure modes are shear failure and fiber breakage under the quasi-static testing condition while interface failure and fibers pullout are at high strain rates.
基金financially supported by the Liaoning Revitalization Talents Program (No. XLYC1807209)。
文摘With the rapid exhaustion of fossil energy, the demand for clean and renewable energy is urgently growing. Thermoelectric(TE) materials, which can directly convert waste heat into electrical energy, are attracting great attention to address the energy crisis [1–3].
文摘Bi 0.5 Sb 1.5 Te 3/polyaniline composites were prepared by mechanical blending and in situ polymerization, and their transport properties were measured. It was found that for the composites with 1%, 3%, 5% and 7% polyaniline (mass fraction) respectively, which were prepared by mechanical blending, the power factors decrease by about 30%, 50%, 55% and 65% compared with the Bi 0.5 Sb 1.5 Te 3 samples, which is mainly due to the remarkable decreases of the electrical conductivity. The electrical conductivity and power factor of the composites samples with 7% polyaniline prepared by in situ polymerization are higher by about 65% and 60%, respectively, than that of the corresponding samples prepared by mechanical blending.
基金Funded by the National Natural Science Foundation of China(No.51662005)the Guangxi Natural Science Foundation(No.2014GXNSFFA118004)
文摘Series Bi3NbO7/Bi2Zn(2/3)Nb(4/3)O7 (BN/BZN) composites were synthesized through a facile solid state reaction method. The products were characterized by X-ray diffraction(XRD), field emission scanning electron microscopy(FE-SEM) and UV-vis diffuse reflectance spectroscopy(DRS). When BN: BZN=0.1 mole ratio, the BN/BZN composite showed the best visible-light-driven photocatalytic performance, which decomposed nearly 100% of Rh B(10 ppm, p H=3-4) within 40 min. The results demonstrated that in-situ solid state synthesis of BN/BZN composites could be an efficient strategy to develop new photocatalyst for environmental remediation.