Publication detail
Tensigrity Models of Mechanical Behaviour of Living Cell.
BANSOD, Y. BURŠA, J.
Czech title
Tensegrita Modely mechanického chování živých buněk
English title
Tensigrity Models of Mechanical Behaviour of Living Cell.
Type
abstract
Language
en
Original abstract
Tensegrity is a structural principle based on the use of isolated components in compression inside a net of continuous tension, in a way that the compressed members (also known as bars/struts) do not touch each other and the prestressed tensioned members (usually known as cables/tendons/strings) delineate the system spatially. Tensegrity plays a vital role in technological advancement of mankind in many fields ranging from architecture to biology.
Czech abstract
Příspěvek pojednává o modely buněčných mechaniky na základě kontinua přístupy.
English abstract
Tensegrity is a structural principle based on the use of isolated components in compression inside a net of continuous tension, in a way that the compressed members (also known as bars/struts) do not touch each other and the prestressed tensioned members (usually known as cables/tendons/strings) delineate the system spatially. Tensegrity plays a vital role in technological advancement of mankind in many fields ranging from architecture to biology.
Keywords in Czech
buněčné mechanika, výpočtové modely, Tensegrita, vaskulární buněk hladkého svalstva
Keywords in English
Cell mechanics, computational models, Tensegrity, vascular smooth muscle cell
Released
04.11.2014
Publisher
Computational Mechanics 2013 Conference; University of West Bohemia, Pilsen 2013
Location
Spicak, Czech Republic.