journal review list
TRANSCRIPT
-
8/8/2019 Journal Review List
1/9
-
8/8/2019 Journal Review List
2/9
-
8/8/2019 Journal Review List
3/9
-
8/8/2019 Journal Review List
4/9
-
8/8/2019 Journal Review List
5/9
-
8/8/2019 Journal Review List
6/9
-
8/8/2019 Journal Review List
7/9
-
8/8/2019 Journal Review List
8/9
-
8/8/2019 Journal Review List
9/9
Evans a,*, T.J.R. Hughesa, S. Lipton a, M.A. Scott
a, T.W. SederbergCOMPUT. METHODS
APPL. MECH. ENGRG.
199 (2010) 229263
develop it for engineering analysis applications. We test T-splines on some elementary two-dimensional and three-dimensional fluid and structural analysis problems and attain good
results in all cases. We summarize the current status of T-splines, their limitations, and futurepossibilities.
Massimo-
01/2005Structural architecture
for large roofs:
concepts and realizations
Massimo Majowiecki
Bautechnik 82 (2005),
Heft 3
Long span roofs are today widely applied for sport, social, industrial, ecological and other
activities. The experience collected in last decades identified structural typologies as space
structures, cable structures, membrane structures and new under tension efficientmaterials which combination deals with lightweight structural systems, as the state of art onlong span structural design. In order to increase the reliability assessment of wide span
structural systems a knowledge based synthetic conceptual design approach is recommended.Theoretical and experimental in scale analysis, combined with a monitoring control of the
subsequent performance of the structural system, can calibrate mathematical modelling andevaluate long term sufficiency of design.
Snchez-01/2004
Surface Fitting Approach
For Tensile Membranes
Design
J. Snchez, M.A SernaP. Morer
IASS 2004SYMPOSIUM
MONTPELLIER
The aim of this paper is to introduce a method for the conceptual design of membranestructures. Actually, there is a lack of computer based tools for the people involved in these
first stages of the design process, in which the shape of the membrane is being defined. Notmany parameters are needed at this stage for the designer. An easy graphic interface is
needed, in which the designer had the possibility of varying in real time the shape of the
membrane, and the environment around it, to achieve the desired shapes. A hybrid algorithm,based on a structural analysis and a surface fitting approach has been carried out to meet allthe requirements.