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This book presents essential methods of deformation compatibility
control, and explicitly addresses the implied conditions on the
methods' deformation compatibility. Consequently, these conditions
can be considered in engineering structure design, while the
conditions on stable equilibrium can be taken into account in the
design method. Thus, the designed deformation and the actual
deformation of the respective structure are approximately
identical, guaranteeing both the flexibility of the construction
material in force transmission and the equilibrium of force in the
structure. Though equilibrium theory in engineering structures has
been extensively studied, there has been comparatively little
research on compatibility. In the limited researches available, the
topics are primarily the theories and assumptions on the
deformation compatibility, while few systematic works focus on the
mechanical theoretical principles and methods of deformation
compatibility control. As such, the flexibility of the construction
material in force transmission and the stable equilibrium of the
structure as a whole cannot be guaranteed based on these research
results. Successfully addressing this important gap in the
literature, the book is intended for researchers and postgraduates
in engineering mechanics, civil engineering and related areas.
This book presents essential methods of deformation compatibility
control, and explicitly addresses the implied conditions on the
methods' deformation compatibility. Consequently, these conditions
can be considered in engineering structure design, while the
conditions on stable equilibrium can be taken into account in the
design method. Thus, the designed deformation and the actual
deformation of the respective structure are approximately
identical, guaranteeing both the flexibility of the construction
material in force transmission and the equilibrium of force in the
structure. Though equilibrium theory in engineering structures has
been extensively studied, there has been comparatively little
research on compatibility. In the limited researches available, the
topics are primarily the theories and assumptions on the
deformation compatibility, while few systematic works focus on the
mechanical theoretical principles and methods of deformation
compatibility control. As such, the flexibility of the construction
material in force transmission and the stable equilibrium of the
structure as a whole cannot be guaranteed based on these research
results. Successfully addressing this important gap in the
literature, the book is intended for researchers and postgraduates
in engineering mechanics, civil engineering and related areas.
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