Unique methods of mathematical modelling and the numerical analysis, applications for PC, methods of experimental researches are developed. Availability of modern complex laboratories allows to solve problems of designing and implementation of new products in various branches of mechanical engineering.
An activity direction and possibilities :
research of unlimited resilient deformation of flexible extended objects of any spatial configuration at action static (load or deformation) or dynamic loadings;
designing, experimental and natural tests of new knots of machine and mechanisms, introduction of high technologies in applied mechanical engineering.
Expediency and efficiency:
definition of the is mode of deformation condition, equilibrium stability and overcritical behaviour of the difficult engineering objects which calculation with necessary accuracy was considered earlier as the impossible;
Increase of level of reliability and optimality of separate knots and a design as a whole;
reduction of a budget project cost at the expense of replacement expensive physical (natural or modelling) experiments by test of imitating computer models;
reduction of terms of performance of design works.
Advantages. It is established and fundamentally well-founded that methods which are applied, have the big advantages in comparison with methods of similar appointment:
high speed of convergence of the numerical algorithms, allowing to solve essentially new problems, to reduce account time, effectively to use computer technologies;
possibility of the separate and joint account of the various load-bearing factors connected with complication of modes of operation and spatial geometry of object;
possibility of numerical and graphic representation of results in a mode of real time for the purpose of an operative correcting of technological process.
An activity direction and possibilities :
research of unlimited resilient deformation of flexible extended objects of any spatial configuration at action static (load or deformation) or dynamic loadings;
designing, experimental and natural tests of new knots of machine and mechanisms, introduction of high technologies in applied mechanical engineering.
Expediency and efficiency:
definition of the is mode of deformation condition, equilibrium stability and overcritical behaviour of the difficult engineering objects which calculation with necessary accuracy was considered earlier as the impossible;
Increase of level of reliability and optimality of separate knots and a design as a whole;
reduction of a budget project cost at the expense of replacement expensive physical (natural or modelling) experiments by test of imitating computer models;
reduction of terms of performance of design works.
Advantages. It is established and fundamentally well-founded that methods which are applied, have the big advantages in comparison with methods of similar appointment:
high speed of convergence of the numerical algorithms, allowing to solve essentially new problems, to reduce account time, effectively to use computer technologies;
possibility of the separate and joint account of the various load-bearing factors connected with complication of modes of operation and spatial geometry of object;
possibility of numerical and graphic representation of results in a mode of real time for the purpose of an operative correcting of technological process.
NONLINEAR MECHANICS
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NONLINEAR MECHANICS
(mechanics of flexible elements )
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