By the numberical calculation of dynamic lining pressure distributions,temperature fields and thermal stress fields of steel plates,a method using nonlinear finite element techniques to analyze failure mechanism of a ...By the numberical calculation of dynamic lining pressure distributions,temperature fields and thermal stress fields of steel plates,a method using nonlinear finite element techniques to analyze failure mechanism of a multiple disc wet brake is detailed ,and some measures for combatting these failures are provided展开更多
To study the distribution and dissipation of braking power of wet multidisc brake and determine thermal load and thermal flux distribution between mated discs, the concept of distributing brake power four times was pu...To study the distribution and dissipation of braking power of wet multidisc brake and determine thermal load and thermal flux distribution between mated discs, the concept of distributing brake power four times was put forward. The third and the fourth distribution of brake power were calculated by using finite element(FE) software ANSYS. The third and the fourth distribution of wet multidisc brake are mainly related to material characteristics of discs during emergency braking, while most of the braking power is carried off during continuous braking. Basis is provided for further analysis of disc failure and applicability of different friction materials.展开更多
The rmomechanical phenomens occurring between friction pairs greatly changethe distributions of lining pressure and friction surface temperature of a multiple disc wet brake.It has become one of the main causes of bra...The rmomechanical phenomens occurring between friction pairs greatly changethe distributions of lining pressure and friction surface temperature of a multiple disc wet brake.It has become one of the main causes of brake failure. In order to understand these thermomechanicalphenomena, several design and material factors that have great influence on thermomechanicalphenomena, such as heat transfer coefficient, friction factor; sliding velocity, initial liningpressure and so on, are analyzed. An isothermal design method is proposed for designing a multipledisc wet brake.展开更多
文摘By the numberical calculation of dynamic lining pressure distributions,temperature fields and thermal stress fields of steel plates,a method using nonlinear finite element techniques to analyze failure mechanism of a multiple disc wet brake is detailed ,and some measures for combatting these failures are provided
文摘To study the distribution and dissipation of braking power of wet multidisc brake and determine thermal load and thermal flux distribution between mated discs, the concept of distributing brake power four times was put forward. The third and the fourth distribution of brake power were calculated by using finite element(FE) software ANSYS. The third and the fourth distribution of wet multidisc brake are mainly related to material characteristics of discs during emergency braking, while most of the braking power is carried off during continuous braking. Basis is provided for further analysis of disc failure and applicability of different friction materials.
文摘The rmomechanical phenomens occurring between friction pairs greatly changethe distributions of lining pressure and friction surface temperature of a multiple disc wet brake.It has become one of the main causes of brake failure. In order to understand these thermomechanicalphenomena, several design and material factors that have great influence on thermomechanicalphenomena, such as heat transfer coefficient, friction factor; sliding velocity, initial liningpressure and so on, are analyzed. An isothermal design method is proposed for designing a multipledisc wet brake.
