Geometrically nonlinear oscillations are investigated on sigmoid functionally graded material (S-FGM) plates with a longitudinal speed. The material properties of the plates obey a sigmoid distribution rule along th...Geometrically nonlinear oscillations are investigated on sigmoid functionally graded material (S-FGM) plates with a longitudinal speed. The material properties of the plates obey a sigmoid distribution rule along the thickness direction. Based on the D'Alembert's principle, a nonlinear equation of motion is derived for the moving S-FGM plates, where the von K^rm^n nonlinear plate theory is adopted. Utilizing the Galerkin method, the equation of motion is discretized and solved via the method of harmonic bal- ance. The approximate analytical solutions are validated through the adaptive step-size fourth-order Runge-Kutta method. Besides, the stability of the steady-state solutions is examined. The results reveal that the mode interaction behavior can happen between the first two modes of the moving S-FGM plates, leading to a complex nonlinear frequency response. It is further found that the power-law index, the longitudinal speed, the exci- tation amplitude, and the in-plane pretension force can significantly affect the nonlinear frequency-response characteristics of longitudinally traveling S-FGM plates.展开更多
Based on von Karman's plate theory, the axisymmetric thermal buckling and post-buckling of the functionally graded material (FGM) circular plates with in- plane elastic restraints under transversely non-uniform tem...Based on von Karman's plate theory, the axisymmetric thermal buckling and post-buckling of the functionally graded material (FGM) circular plates with in- plane elastic restraints under transversely non-uniform temperature rise are studied. The properties of the FGM media are varied through the thickness based on a simple power law. The governing equations are numerically solved by a shooting method. The results of the critical buckling temperature, post-buckling equilibrium paths, and configurations for the in-plane elastically restrained plates are presented. The effects of the in-plane elastic restraints, material property gradient, and temperature variation on the responses of thermal buckling and post-buckling are examined in detail.展开更多
Hydrogen serves as an efficient energy vector with advantages such as high energy density,greenness,and cleanliness.Hydrogen generation from water electrolysis with renewable energy is an effective approach for achiev...Hydrogen serves as an efficient energy vector with advantages such as high energy density,greenness,and cleanliness.Hydrogen generation from water electrolysis with renewable energy is an effective approach for achieving renewable energy consumption and green hydrogen energy production.Polymer electrolyte membrane water electrolysis(PEMWE)is capable of presenting the merits of high current density,high productivity,superior gas purity,low energy consumption and high safety.The development of PEMWE is an important part of achieving the coupling of renewable energy,electric energy and hydrogen energy.As a crucial component of PEMWE,bipolar plates(BPs)constitute the mechanical support of the whole cell and provide a channel for electron transport and material supply.These channels determine the electrochemical and hydrodynamic response of a PEMWE.This work reviews the latest developments and applications of BPs,with a focus on the challenges of flow field structure and material fabrication.The specific content covers the BP matrix,types of surface layers,and effect of flow field design on mass transfer.Extended-term growth and feasibility studies of BPs,which can provide a reference and guidance for the configuration of high-behavior flow fields in PEMWEs in the long run,are envisioned.展开更多
A copper coating was deposited by electroless plating on the surfaces of urea-formaldehyde microcap- sules containing paraffin (UFP) particles. This composite microcapsule structure had low infrared OR) emissivity ...A copper coating was deposited by electroless plating on the surfaces of urea-formaldehyde microcap- sules containing paraffin (UFP) particles. This composite microcapsule structure had low infrared OR) emissivity and maintained a constant temperature, and could be used in IR stealth applications. The eiectroless copper layer formation and its micro-appearance, and the effect of the copper layer on the IR emissivity and thermal properties of the composite microcapsules were investigated. The IR emissivity of the composite microcapsules at wavelengths of 1-14 μm gradually decreased with increasing copper mass on the surface. After formation of an integrated copper layer, the rate of IR emissivity decrease was lower. This is because the copper coating improves the surface conductivity of the UFP; a high conductivity results in high reflectivity, which leads to a decrease in IR emissivity. The lowest IR emissivity achieved was 0.68. The phase-change enthalpy of the composite microcapsules decreased with increasing amount of copper coated on the surface because of the high density of copper. When the mass increase of the UFP after electroless copper plating was about 300%, the composite microcapsules had low IR emissivity (about 0.8) and a high phase-change enthalpy (80J/g).展开更多
The admittance features representing the physical attributes are used as the in termediates to extract the materialattributesrelated impact sound features of ribbed plates. Firstly, the admittance feature representati...The admittance features representing the physical attributes are used as the in termediates to extract the materialattributesrelated impact sound features of ribbed plates. Firstly, the admittance feature representations of metal ribbed plates attributes are obtained and the relationship between the admittance features and the impact sound features are established via correlation analysis method. Then, materialattributesrelated impact sound features are obtained indirectly. Finally, the performances of different sound features for the material recognition of ribbedmetal plates are verified through the Support Vector Machine classifier. The results indicate that the obtained four sets of features can effectively identify the materials of the metal ribbed plates, while the accuracy of a single feature depends on the separable degree of the corresponding material attribute. And the features extracted based on admittance functions have higher average accuracy than that of timbre features. Therefore, the proposed sound feature extraction method based on admittance features is valid, and the extracted sound features can effectively reflect the physical attributes.展开更多
Vibrational power flow on combined plates with a change in mass and stiffness or with viscoelastic damping layer used widely in engineering is studied. The expressions of flexural displacement and other physical quan...Vibrational power flow on combined plates with a change in mass and stiffness or with viscoelastic damping layer used widely in engineering is studied. The expressions of flexural displacement and other physical quantities are obtained using Laplace transformation and transfer matrix approach, then influences of changes in mass and stiffness of discontinuous material and the free damping layer on the input power flow and the transmitted power flow are discussed. The conclusions provide theory basis for structural optimization design and reducing noise and vibration展开更多
In this study,the influence of the phase-change cooling storage system on integrating and controlling of the combined cooling,heating,and power system was analyzed through experiments and computational fluid dynamics ...In this study,the influence of the phase-change cooling storage system on integrating and controlling of the combined cooling,heating,and power system was analyzed through experiments and computational fluid dynamics simulations.The model of three-dimensional phase change material plate and cold storage tank was established and verified.The phase change material selected in this study is a eutectic salt with a phase change temperature of 8℃.The thermodynamic performance of the cold storage tank filled with phase change material plates was calculated,and the energy storage and release efficiency of the phase-change cooling storage system was analyzed.The results indicate that the phase change process correlates positively with the heat transfer fluid flow rate.The heat transfer fluid flow rates of 1.2 m^(3)/h,1.6 m^(3)/h,and 2.0 m^(3)/h all allow the phase change material within the encapsulation module to completely solidify within 8 hours;the flow rate required for melting is not less than 2.0 m^(3)/h,and the highest energy storage efficiency is up to 72%.Considering the thermodynamic performance of the phase-change cooling storage system,it is recommended to use a heat transfer fluid flow rate of 1.6 m^(3)/h for the cooling charge process and 2.0 m^(3)/h for the cooling release process.展开更多
基金supported by the National Natural Science Foundation of China(Nos.11672071,11302046,and 11672072)the Fundamental Research Funds for the Central Universities(No.N150504003)
文摘Geometrically nonlinear oscillations are investigated on sigmoid functionally graded material (S-FGM) plates with a longitudinal speed. The material properties of the plates obey a sigmoid distribution rule along the thickness direction. Based on the D'Alembert's principle, a nonlinear equation of motion is derived for the moving S-FGM plates, where the von K^rm^n nonlinear plate theory is adopted. Utilizing the Galerkin method, the equation of motion is discretized and solved via the method of harmonic bal- ance. The approximate analytical solutions are validated through the adaptive step-size fourth-order Runge-Kutta method. Besides, the stability of the steady-state solutions is examined. The results reveal that the mode interaction behavior can happen between the first two modes of the moving S-FGM plates, leading to a complex nonlinear frequency response. It is further found that the power-law index, the longitudinal speed, the exci- tation amplitude, and the in-plane pretension force can significantly affect the nonlinear frequency-response characteristics of longitudinally traveling S-FGM plates.
基金Project supported by the National Natural Science Foundation of China(Nos.11272278 and11672260)the China Postdoctoral Science Foundation(No.149558)
文摘Based on von Karman's plate theory, the axisymmetric thermal buckling and post-buckling of the functionally graded material (FGM) circular plates with in- plane elastic restraints under transversely non-uniform temperature rise are studied. The properties of the FGM media are varied through the thickness based on a simple power law. The governing equations are numerically solved by a shooting method. The results of the critical buckling temperature, post-buckling equilibrium paths, and configurations for the in-plane elastically restrained plates are presented. The effects of the in-plane elastic restraints, material property gradient, and temperature variation on the responses of thermal buckling and post-buckling are examined in detail.
基金support from the Tianjin Natural Science Foundation for Outstanding Young Scholar(No.23JCJQJC00290)the Scientific Research Plan Project of Tianjin Education Commission(No.2023KJ207)+1 种基金Basic Research Collaborative Project of Beijing–Tianjin–Hebei(NO.E2024202285)Project of State Key Laboratory of Intelligent Green Vehicle and Mobility(No.KFY2403).
文摘Hydrogen serves as an efficient energy vector with advantages such as high energy density,greenness,and cleanliness.Hydrogen generation from water electrolysis with renewable energy is an effective approach for achieving renewable energy consumption and green hydrogen energy production.Polymer electrolyte membrane water electrolysis(PEMWE)is capable of presenting the merits of high current density,high productivity,superior gas purity,low energy consumption and high safety.The development of PEMWE is an important part of achieving the coupling of renewable energy,electric energy and hydrogen energy.As a crucial component of PEMWE,bipolar plates(BPs)constitute the mechanical support of the whole cell and provide a channel for electron transport and material supply.These channels determine the electrochemical and hydrodynamic response of a PEMWE.This work reviews the latest developments and applications of BPs,with a focus on the challenges of flow field structure and material fabrication.The specific content covers the BP matrix,types of surface layers,and effect of flow field design on mass transfer.Extended-term growth and feasibility studies of BPs,which can provide a reference and guidance for the configuration of high-behavior flow fields in PEMWEs in the long run,are envisioned.
文摘A copper coating was deposited by electroless plating on the surfaces of urea-formaldehyde microcap- sules containing paraffin (UFP) particles. This composite microcapsule structure had low infrared OR) emissivity and maintained a constant temperature, and could be used in IR stealth applications. The eiectroless copper layer formation and its micro-appearance, and the effect of the copper layer on the IR emissivity and thermal properties of the composite microcapsules were investigated. The IR emissivity of the composite microcapsules at wavelengths of 1-14 μm gradually decreased with increasing copper mass on the surface. After formation of an integrated copper layer, the rate of IR emissivity decrease was lower. This is because the copper coating improves the surface conductivity of the UFP; a high conductivity results in high reflectivity, which leads to a decrease in IR emissivity. The lowest IR emissivity achieved was 0.68. The phase-change enthalpy of the composite microcapsules decreased with increasing amount of copper coated on the surface because of the high density of copper. When the mass increase of the UFP after electroless copper plating was about 300%, the composite microcapsules had low IR emissivity (about 0.8) and a high phase-change enthalpy (80J/g).
基金supported by the National Natural Science Foundation of China(11574249)the Aeronautical Science Foundation of China(20131553018)
文摘The admittance features representing the physical attributes are used as the in termediates to extract the materialattributesrelated impact sound features of ribbed plates. Firstly, the admittance feature representations of metal ribbed plates attributes are obtained and the relationship between the admittance features and the impact sound features are established via correlation analysis method. Then, materialattributesrelated impact sound features are obtained indirectly. Finally, the performances of different sound features for the material recognition of ribbedmetal plates are verified through the Support Vector Machine classifier. The results indicate that the obtained four sets of features can effectively identify the materials of the metal ribbed plates, while the accuracy of a single feature depends on the separable degree of the corresponding material attribute. And the features extracted based on admittance functions have higher average accuracy than that of timbre features. Therefore, the proposed sound feature extraction method based on admittance features is valid, and the extracted sound features can effectively reflect the physical attributes.
文摘Vibrational power flow on combined plates with a change in mass and stiffness or with viscoelastic damping layer used widely in engineering is studied. The expressions of flexural displacement and other physical quantities are obtained using Laplace transformation and transfer matrix approach, then influences of changes in mass and stiffness of discontinuous material and the free damping layer on the input power flow and the transmitted power flow are discussed. The conclusions provide theory basis for structural optimization design and reducing noise and vibration
基金supported by the National Key Research and Development Program of China (Grant No.2023YFB4204000)National Key Research and Development Program of China (Grant No.2024YFB4206500)。
文摘In this study,the influence of the phase-change cooling storage system on integrating and controlling of the combined cooling,heating,and power system was analyzed through experiments and computational fluid dynamics simulations.The model of three-dimensional phase change material plate and cold storage tank was established and verified.The phase change material selected in this study is a eutectic salt with a phase change temperature of 8℃.The thermodynamic performance of the cold storage tank filled with phase change material plates was calculated,and the energy storage and release efficiency of the phase-change cooling storage system was analyzed.The results indicate that the phase change process correlates positively with the heat transfer fluid flow rate.The heat transfer fluid flow rates of 1.2 m^(3)/h,1.6 m^(3)/h,and 2.0 m^(3)/h all allow the phase change material within the encapsulation module to completely solidify within 8 hours;the flow rate required for melting is not less than 2.0 m^(3)/h,and the highest energy storage efficiency is up to 72%.Considering the thermodynamic performance of the phase-change cooling storage system,it is recommended to use a heat transfer fluid flow rate of 1.6 m^(3)/h for the cooling charge process and 2.0 m^(3)/h for the cooling release process.
