The aim of this work is to analyze the stress distributions on a crown-luting cement-substrate system with a finite-element method in order to predict the likelihood of interfacial micro cracks, radial or circumferent...The aim of this work is to analyze the stress distributions on a crown-luting cement-substrate system with a finite-element method in order to predict the likelihood of interfacial micro cracks, radial or circumferential cracks, delamination, fracture and delamination with torsion. The contact and layer interface stresses in elastic layered half-space indented by an elastic sphere were examined using finite element method. The model consists of crown, luting cement and substrate. The solutions were carried out for three different elastic moduli of luting cement. It was placed between the cement and the substrate as a middle layer and its elastic module was chosen lower than the elastic module of crown and higher than the elastic module of dentin. An axisymmetric finite element mesh was set up for the stress analysis. Stress distributions on the contact surface and the interfaces of crown-luting cement and luting cement-dentin have been investigated for three different values of luting cement by using ANSYS. The effects of the luting cement which has three different elastic moduli on the pressure distribution and the location of interfacial stresses of the multi-layer model have been examined. The mechanism of crack initiation in the interfaces and interracial delamination was also studied quantitatively. For each luting cement, the pressure distribution is similar at the contact zone. Stress discontinuities occur at the perfect bonding interfaces of the crown-luting cement and the substrate-luting cement. The maximum stress jumps are obtained for the highest and the lowest elastic module of the luting cement. In the crown-luting cement-substrate system, failures may initiate at crown-luting cement region for luting cement with the lowest elastic module value. In addition, failures at luting cement-substrate region may occur for luting cement with the highest elastic module. In the luting cement, the medium elastic module value is more suitable for stress distribution in crown-luting cement-substrate interfaces.展开更多
In this work, the COSMO-RS (conductor like screening model for real solvent) model algorithm was derived from the modified Rachford rice method. It could be more helpful to investigate the phase behavior of binary s...In this work, the COSMO-RS (conductor like screening model for real solvent) model algorithm was derived from the modified Rachford rice method. It could be more helpful to investigate the phase behavior of binary systems with the help of quantum chemical calculation at 6-31G* basis set. COSMO-RS was used to predict solubility of binary mixture involving non-ILs (ionic liquids), and ILs systems are: benzyl ethylamine + glycerol system (Type-Ⅰ), nitro methane + cyclohexane system (Type-Ⅱ), dipropylamine + water system (Type-Ⅲ), 1,2-ethanediol + thiophene system (Type-Ⅳ), [1,2-DMIM] [salicylate] + thiophene (Type-Ⅳ), and [EMIM] [NO3] + thiophene (Type-Ⅳ). Totally 15 cations with 27 anions were used for generating 405 binary LLE (liquid liquid equilibrium) systems involving thiophene. However, the predicted COSMO-RS values are consisting with the reported experimental values. Furthermore, the immiscibility gap at 298.15 K was determined and compared for various ILs. It was found that l-butylpyrrolidinium, l-octylquinolinium, 1-octylpyridinium and 1-octyl-3-methylimidazolium based cations are most suitable for thiophene extraction from any liquid mixture.展开更多
A new method of switched reluctance wind power generation position sensorless based on DFNN by FEA was proposed, Through current and magnetic linkage to get the angle of SRG rotor position, the nonlinear mapping of cu...A new method of switched reluctance wind power generation position sensorless based on DFNN by FEA was proposed, Through current and magnetic linkage to get the angle of SRG rotor position, the nonlinear mapping of cur- rent-magnetic linkage-angle was built, By training these sample data from FEA, the angle of SRG rotor position was replaced by the output of DFNN to achieve SRG position sensorless. Simulation results show that the error between actual rotor position and estimate rotor position is small; SRG can commutate with great accuracy; and the output voltage of SRG wind power system under variable wind speed is essentially constant.展开更多
Finite element method(FEM) was used to investigate the effect of the number of layers on the bond strength for the brittle coating/substrate materials at contact load condition,which has not been addressed previously....Finite element method(FEM) was used to investigate the effect of the number of layers on the bond strength for the brittle coating/substrate materials at contact load condition,which has not been addressed previously.The maximum shear stress was used to act as the criterion of the bonded strength.This paper discussed the relationship between the number of coating layers and the maximum shear stress of the layer/substrate interface.Firstly,the results of the FEM and the Hertz analytical method were compared to verify the accuracy of the FEM model.It was found that with the increase in the number of coating layers,the position of the suddenly changed stress along the z axis is transformed from the interface to the external surface of the coating.Finally,the increase in the number of layers contributes to the decrement of the stress along the x axis.展开更多
Bulk amorphous formation in Ti-Cu-based multicomponent alloys, free of Ni, Pd and Be elements, were studied using the cluster-plus-glue-atom model. The basic cluster formula was revealed as [Ti9Cu6]Cu3 to explain the ...Bulk amorphous formation in Ti-Cu-based multicomponent alloys, free of Ni, Pd and Be elements, were studied using the cluster-plus-glue-atom model. The basic cluster formula was revealed as [Ti9Cu6]Cu3 to explain the best binary glass forming composition Ti50Cu50=Ti9Cu9, where the CN14 rhombi-dodecahedron Ti9Cu6 was the principal cluster in the devitrification phase CuTi. This basic cluster formula was further alloyed with Zr and Sn and a critical glass forming ability was reached at (Ti7.2Zr1.8)(Cus.72Sn0.28) and (Ti7.2Zr1.8)(Cu8.45Sn0.55) up to 5 mm in diameter by suction casting, which was the largest in Ti-Cu- based and Ni-, Pd- and Be-free alloys.展开更多
文摘The aim of this work is to analyze the stress distributions on a crown-luting cement-substrate system with a finite-element method in order to predict the likelihood of interfacial micro cracks, radial or circumferential cracks, delamination, fracture and delamination with torsion. The contact and layer interface stresses in elastic layered half-space indented by an elastic sphere were examined using finite element method. The model consists of crown, luting cement and substrate. The solutions were carried out for three different elastic moduli of luting cement. It was placed between the cement and the substrate as a middle layer and its elastic module was chosen lower than the elastic module of crown and higher than the elastic module of dentin. An axisymmetric finite element mesh was set up for the stress analysis. Stress distributions on the contact surface and the interfaces of crown-luting cement and luting cement-dentin have been investigated for three different values of luting cement by using ANSYS. The effects of the luting cement which has three different elastic moduli on the pressure distribution and the location of interfacial stresses of the multi-layer model have been examined. The mechanism of crack initiation in the interfaces and interracial delamination was also studied quantitatively. For each luting cement, the pressure distribution is similar at the contact zone. Stress discontinuities occur at the perfect bonding interfaces of the crown-luting cement and the substrate-luting cement. The maximum stress jumps are obtained for the highest and the lowest elastic module of the luting cement. In the crown-luting cement-substrate system, failures may initiate at crown-luting cement region for luting cement with the lowest elastic module value. In addition, failures at luting cement-substrate region may occur for luting cement with the highest elastic module. In the luting cement, the medium elastic module value is more suitable for stress distribution in crown-luting cement-substrate interfaces.
文摘In this work, the COSMO-RS (conductor like screening model for real solvent) model algorithm was derived from the modified Rachford rice method. It could be more helpful to investigate the phase behavior of binary systems with the help of quantum chemical calculation at 6-31G* basis set. COSMO-RS was used to predict solubility of binary mixture involving non-ILs (ionic liquids), and ILs systems are: benzyl ethylamine + glycerol system (Type-Ⅰ), nitro methane + cyclohexane system (Type-Ⅱ), dipropylamine + water system (Type-Ⅲ), 1,2-ethanediol + thiophene system (Type-Ⅳ), [1,2-DMIM] [salicylate] + thiophene (Type-Ⅳ), and [EMIM] [NO3] + thiophene (Type-Ⅳ). Totally 15 cations with 27 anions were used for generating 405 binary LLE (liquid liquid equilibrium) systems involving thiophene. However, the predicted COSMO-RS values are consisting with the reported experimental values. Furthermore, the immiscibility gap at 298.15 K was determined and compared for various ILs. It was found that l-butylpyrrolidinium, l-octylquinolinium, 1-octylpyridinium and 1-octyl-3-methylimidazolium based cations are most suitable for thiophene extraction from any liquid mixture.
基金Supported by the National Natural Science Foundation of China (50977080) the Science & Technology Department Project of Hunan Province (2010F J3116) the Education Department Project of Hunan Province ( 10A 114)
文摘A new method of switched reluctance wind power generation position sensorless based on DFNN by FEA was proposed, Through current and magnetic linkage to get the angle of SRG rotor position, the nonlinear mapping of cur- rent-magnetic linkage-angle was built, By training these sample data from FEA, the angle of SRG rotor position was replaced by the output of DFNN to achieve SRG position sensorless. Simulation results show that the error between actual rotor position and estimate rotor position is small; SRG can commutate with great accuracy; and the output voltage of SRG wind power system under variable wind speed is essentially constant.
基金supported by the National Natural Science Foundation of China (Grant No. 51005102)Postdoctoral Science Foundation of Jiangsu Province (Grant No. 1002028C)+1 种基金Postdoctoral Science Foundation of China (Grant No. 20110491366)the State Key Laboratory of Tribology of Tsinghua University (Grant No. SKLTKF10B04)
文摘Finite element method(FEM) was used to investigate the effect of the number of layers on the bond strength for the brittle coating/substrate materials at contact load condition,which has not been addressed previously.The maximum shear stress was used to act as the criterion of the bonded strength.This paper discussed the relationship between the number of coating layers and the maximum shear stress of the layer/substrate interface.Firstly,the results of the FEM and the Hertz analytical method were compared to verify the accuracy of the FEM model.It was found that with the increase in the number of coating layers,the position of the suddenly changed stress along the z axis is transformed from the interface to the external surface of the coating.Finally,the increase in the number of layers contributes to the decrement of the stress along the x axis.
基金supported by the National Natural Science Foundation of China(Grant Nos. 51131002 and 51171035)the Fundamental Research Funds for the Central Universities(Grant No. DUT12LAB08)
文摘Bulk amorphous formation in Ti-Cu-based multicomponent alloys, free of Ni, Pd and Be elements, were studied using the cluster-plus-glue-atom model. The basic cluster formula was revealed as [Ti9Cu6]Cu3 to explain the best binary glass forming composition Ti50Cu50=Ti9Cu9, where the CN14 rhombi-dodecahedron Ti9Cu6 was the principal cluster in the devitrification phase CuTi. This basic cluster formula was further alloyed with Zr and Sn and a critical glass forming ability was reached at (Ti7.2Zr1.8)(Cus.72Sn0.28) and (Ti7.2Zr1.8)(Cu8.45Sn0.55) up to 5 mm in diameter by suction casting, which was the largest in Ti-Cu- based and Ni-, Pd- and Be-free alloys.
