AbstractKineto-elastodynamic analysis deals with the study of kinematic and dynamic analysis of a mechanism by considering the elasticity and distribution of mass in link. In present paper finite element method for kineto-elastodynamic analysis of high speed planar four bar mechanism has been presented. Based on the work done by previous researchers, well known displacement finite element method has been used to develop the mass and stiffness properties of an elastic linkage. The mechanism is modeled as beam element and its equation of motion is expressed in a matrix form. An accurate and efficient method to determine the strain in different link of Watt's mechanism using ANSYS has been presented, considering flexibility of a link at high s...
The nonlinear elastodynamic modeling and analysis of the 4-UPS-UPU spatial 5-degree-of-freedom paral...
In a previously reported work, generalized equations of motion were developed for the dynamic analys...
Derived from the principle of virtual displacement, a general finite element analysis computer code ...
AbstractKineto-elastodynamic analysis deals with the study of kinematic and dynamic analysis of a me...
This thesis addresses the kineto-elastodynamic analysis of a four-bar mechanism running at high-spee...
none4The purpose of this research is the analysis of the effects produced by different techniques of...
When developing new mechanisms or machines, foreseen to run at a high speed, designers should take i...
A general approach is described for deriving the equations of motion of planar linkages in high-spee...
The development of the finite element method for the numerical analysis of the mechanical behaviour ...
A new, economical iterative technique is suggested in this paper for the analysis of the elastic def...
This paper investigates the effects produced by two common techniques of force and static balancing ...
Until recently, vibration effects have generally been neglected in the design of high-speed machines...
SIGLEAvailable from British Library Document Supply Centre- DSC:D85493 / BLDSC - British Library Doc...
The links of high-speed mechanisms and manipulators are deformed under the action of inertia forces...
AbstractIt is well-known that the dynamic analysis of mechanisms operating at high speed cannot negl...
The nonlinear elastodynamic modeling and analysis of the 4-UPS-UPU spatial 5-degree-of-freedom paral...
In a previously reported work, generalized equations of motion were developed for the dynamic analys...
Derived from the principle of virtual displacement, a general finite element analysis computer code ...
AbstractKineto-elastodynamic analysis deals with the study of kinematic and dynamic analysis of a me...
This thesis addresses the kineto-elastodynamic analysis of a four-bar mechanism running at high-spee...
none4The purpose of this research is the analysis of the effects produced by different techniques of...
When developing new mechanisms or machines, foreseen to run at a high speed, designers should take i...
A general approach is described for deriving the equations of motion of planar linkages in high-spee...
The development of the finite element method for the numerical analysis of the mechanical behaviour ...
A new, economical iterative technique is suggested in this paper for the analysis of the elastic def...
This paper investigates the effects produced by two common techniques of force and static balancing ...
Until recently, vibration effects have generally been neglected in the design of high-speed machines...
SIGLEAvailable from British Library Document Supply Centre- DSC:D85493 / BLDSC - British Library Doc...
The links of high-speed mechanisms and manipulators are deformed under the action of inertia forces...
AbstractIt is well-known that the dynamic analysis of mechanisms operating at high speed cannot negl...
The nonlinear elastodynamic modeling and analysis of the 4-UPS-UPU spatial 5-degree-of-freedom paral...
In a previously reported work, generalized equations of motion were developed for the dynamic analys...
Derived from the principle of virtual displacement, a general finite element analysis computer code ...