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Shape and Layout Optimization of Structural Systems and Optimality Criteria Methods
Barnes and Noble
Shape and Layout Optimization of Structural Systems and Optimality Criteria Methods
Current price: $54.99


Barnes and Noble
Shape and Layout Optimization of Structural Systems and Optimality Criteria Methods
Current price: $54.99
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Shape and layout optimization represent some of the most useful but also most difficult classes of problems in structural design, which have been investigated in detail only during the last few years.
Shape optimization
is concerned with the optimal shape of boundaries of continua or of interfaces between two materials in composites.
Layout
optimization
deals with the simultaneous optimization of the topology, geometry and cross-sectional sizes of structural systems. In spite of its complextiy, layout optimization is a very rewarding task, because it results in much greater savings than the optimization of cross-sectional sizes only. Because of their important role in shape and layout optimization, the book also covers in detail new
optimality
criteria methods
, which are capable of handling many thousand design variables and active design contraints. Shape and layout optimization is becoming an indispensable tool in the design of aeroplanes, space structures, cars, ships, building and civil engineering structures, power stations, chemical plants, artificial organs, sporting equipment, and all other solid systems where stresses and deformations play an important role.
Shape optimization
is concerned with the optimal shape of boundaries of continua or of interfaces between two materials in composites.
Layout
optimization
deals with the simultaneous optimization of the topology, geometry and cross-sectional sizes of structural systems. In spite of its complextiy, layout optimization is a very rewarding task, because it results in much greater savings than the optimization of cross-sectional sizes only. Because of their important role in shape and layout optimization, the book also covers in detail new
optimality
criteria methods
, which are capable of handling many thousand design variables and active design contraints. Shape and layout optimization is becoming an indispensable tool in the design of aeroplanes, space structures, cars, ships, building and civil engineering structures, power stations, chemical plants, artificial organs, sporting equipment, and all other solid systems where stresses and deformations play an important role.