The paper presents an energy iterative method to determine the second critical velocity by comparing the time histories of the kinetic energy and the buckling deformation based on the finite element model of the impac...The paper presents an energy iterative method to determine the second critical velocity by comparing the time histories of the kinetic energy and the buckling deformation based on the finite element model of the impact system. To design anti-impact structures of the thin-wall cylindrical tubes with this new method, the cost of the experiment can be considerably reduced. The feasibility and validity of this method are demonstrated by a dropping hammer experiment. In addition, this paper deals with the influence of constrained damping layers on the anti-impact capability and energy-absorption of thin-wall cylindrical tubes. Results show that the constrained damping layers make the energy-absorption and the anti-impact capability increased comparing with the naked tubes; the thickness of the damping layer should be restricted in a range, or else the anti-impact capability will decrease with the increase of the damping layer thickness; for the constrained layer, the anti-impact capability will increase with the augment of its thickness.展开更多
A new finite element modeling method has been developed using laminate theory in a virtual work principle for active constraining layer damping plate. The frequency dependent modulus of viscoelastic material is descri...A new finite element modeling method has been developed using laminate theory in a virtual work principle for active constraining layer damping plate. The frequency dependent modulus of viscoelastic material is described by introducing a few dissipation coordinates, known as GHM (Golla-Hughes-McTavish) method, a standard linear system with constant coefficient. The effectiveness of this method is validated by experimental model. Compared with conventional methods, this method can reduce a number of degrees of freedom and improve accuracy, provides a good model for analogous configurations.展开更多
An appropriate business dispute resolution will ensure that the parties involved would not have to spend too much time and cost to resolve their case. There are two ways to resolve business disputes, through litigatio...An appropriate business dispute resolution will ensure that the parties involved would not have to spend too much time and cost to resolve their case. There are two ways to resolve business disputes, through litigation and non-litigation process. The non-litigation process mainly depends upon the agreement of the parties involved and does not have a formally binding force upon them. Although the non-litigation process is more preferred in resolving business disputes, sometimes it does not completely resolve the issue. A specific business dispute resolution procedure such as the mechanism of small claims court (an informal court) is required. The objectives of the small claims court are to settle cases in prompt and cost-effective manner, and to avoid lengthy and complex formal legal procedures. Although it is still a part of the litigation process, the small claims court applies simplified procedures that are different from those of conventional civil cases. Nonetheless, the judgment of the small claims court has the same legally binding force as that of general court. The small claims court is situated in the District Court, but the examination of cases is different from general procedures and until now the mechanism has not been widely known in Indonesia.展开更多
The effect of the nuclear symmetry energy slope on the non-radial oscillation f-modes in neutron stars is calculated and discussed. Based on a conservative range of the symmetry energy slope constrained by the experim...The effect of the nuclear symmetry energy slope on the non-radial oscillation f-modes in neutron stars is calculated and discussed. Based on a conservative range of the symmetry energy slope constrained by the experiment and theoretical analysis, a constraint on the frequency and damping time of the gravitational radiation from the f-mode in neutron star is obtained. It is also shown that a higher symmetry energy slope corresponds with a smaller frequency and a longer damping time. Meanwhile, a new set of parameters is given to present the universal properties of the scaled frequency and damping time.展开更多
文摘The paper presents an energy iterative method to determine the second critical velocity by comparing the time histories of the kinetic energy and the buckling deformation based on the finite element model of the impact system. To design anti-impact structures of the thin-wall cylindrical tubes with this new method, the cost of the experiment can be considerably reduced. The feasibility and validity of this method are demonstrated by a dropping hammer experiment. In addition, this paper deals with the influence of constrained damping layers on the anti-impact capability and energy-absorption of thin-wall cylindrical tubes. Results show that the constrained damping layers make the energy-absorption and the anti-impact capability increased comparing with the naked tubes; the thickness of the damping layer should be restricted in a range, or else the anti-impact capability will decrease with the increase of the damping layer thickness; for the constrained layer, the anti-impact capability will increase with the augment of its thickness.
文摘A new finite element modeling method has been developed using laminate theory in a virtual work principle for active constraining layer damping plate. The frequency dependent modulus of viscoelastic material is described by introducing a few dissipation coordinates, known as GHM (Golla-Hughes-McTavish) method, a standard linear system with constant coefficient. The effectiveness of this method is validated by experimental model. Compared with conventional methods, this method can reduce a number of degrees of freedom and improve accuracy, provides a good model for analogous configurations.
文摘An appropriate business dispute resolution will ensure that the parties involved would not have to spend too much time and cost to resolve their case. There are two ways to resolve business disputes, through litigation and non-litigation process. The non-litigation process mainly depends upon the agreement of the parties involved and does not have a formally binding force upon them. Although the non-litigation process is more preferred in resolving business disputes, sometimes it does not completely resolve the issue. A specific business dispute resolution procedure such as the mechanism of small claims court (an informal court) is required. The objectives of the small claims court are to settle cases in prompt and cost-effective manner, and to avoid lengthy and complex formal legal procedures. Although it is still a part of the litigation process, the small claims court applies simplified procedures that are different from those of conventional civil cases. Nonetheless, the judgment of the small claims court has the same legally binding force as that of general court. The small claims court is situated in the District Court, but the examination of cases is different from general procedures and until now the mechanism has not been widely known in Indonesia.
基金Supported by the National Natural Science Foundation of China under Grant Nos.11275073,11205061the Fundamental Research Fund for the Central Universities,China under Grant No.2014ZG0036the Scientific Research Staring Foundation for the Returned Overseas Chinese Scholars,Ministry of Education of China
文摘The effect of the nuclear symmetry energy slope on the non-radial oscillation f-modes in neutron stars is calculated and discussed. Based on a conservative range of the symmetry energy slope constrained by the experiment and theoretical analysis, a constraint on the frequency and damping time of the gravitational radiation from the f-mode in neutron star is obtained. It is also shown that a higher symmetry energy slope corresponds with a smaller frequency and a longer damping time. Meanwhile, a new set of parameters is given to present the universal properties of the scaled frequency and damping time.
