Pregled bibliografske jedinice broj: 765784
Computational Modeling of Structural Problems using Atomic Basis Functions
Computational Modeling of Structural Problems using Atomic Basis Functions // Advanced Structured Materials, Vol. 70, Mechanical and Materials Engineering of Modern Structure and Component Design / Öchsner, Andreas ; Altenbach, Holm (ur.).
Cham: Springer, 2015. str. 207-230
CROSBI ID: 765784 Za ispravke kontaktirajte CROSBI podršku putem web obrasca
Naslov
Computational Modeling of Structural Problems using Atomic Basis Functions
Autori
Kozulić, Vedrana ; Gotovac, Blaž
Vrsta, podvrsta i kategorija rada
Poglavlja u knjigama, znanstveni
Knjiga
Advanced Structured Materials, Vol. 70, Mechanical and Materials Engineering of Modern Structure and Component Design
Urednik/ci
Öchsner, Andreas ; Altenbach, Holm
Izdavač
Springer
Grad
Cham
Godina
2015
Raspon stranica
207-230
ISBN
978-3-319-19442-4
Ključne riječi
numerical modeling, mesh free method, atomic basis functions, collocation
Sažetak
This paper presents the application of the Fupn(x) basis functions in numerical modeling of different engineering problems. Fupn(x) basis functions belong to a class of atomic functions which are infinitely-differentiable functions with compact support. The collocation method has been applied in the development of numerical models. A system of algebraic equations is formed in which the differential equation of the problem is satisfied in collocation points of a closed domain while boundary conditions are satisfied exactly at the domain boundary. Using this way, the required accuracy of approximate solution is obtained simply by an increase in the number of basis functions. So, this concept represents a fully mesh free method. The properties of the atomic basis functions enable a hierarchic expansion of an approximate solution base either in the entire domain or in its segments. Presented numerical models are illustrated by examples of the torsion of prismatic bars, elasto-plastic analyses of beam bending and thin plate bending problems. The results of the analyses are compared with the existing exact and relevant numerical solutions. It can be concluded that the possibility of hierarchically expanding the number of basis functions in the domain significantly accelerates the convergence of a numerical procedure in a simple way. Values of the main solution function, e.g. displacements, and all the values derived from the main solution of the problem such as stresses, bending moments and transversal forces, are calculated in the same points and with the same degree of accuracy since numerical integration is avoided.
Izvorni jezik
Engleski
Znanstvena područja
Građevinarstvo, Temeljne tehničke znanosti
POVEZANOST RADA
Projekti:
083-0831541-1534 - Adaptivno bezmrežno modeliranje u projektiranju građevinskih konstrukcija (Kozulić, Vedrana, MZO ) ( CroRIS)
Ustanove:
Fakultet građevinarstva, arhitekture i geodezije, Split