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In all the figures the zeroclastic membrane will adapt the surface of the membrane pushed to. It will alsodecrease the curvature. In Figure 81 there is no manipulation.3.4.3 Pushing a synclastic inflatable against another membraneFigure 85, Synclastic inflatable membrane pushed against an anticlastic mechanical pre stressed membraneFigure 86, Synclastic inflatable membrane pushed against a zeroclastic mechanical pre stressed membraneFigure 87, Synclastic inflatable membrane pushed against another synclastic inflatable membraneFigure 88, Synclastic inflatable membrane pushed against a monoclastic inflatable membraneFigure 89, Synclastic inflatable membrane pushed against an anticlastic inflatable membraneIn Figure 87 the surface decreases to zeroclastic and becomes synclastic in the opposite direction. At theborders from the “negative” synclastic surface to the “positive” curvature there will be a folding line oranticlastic area (Figure 72).In Figures 85, 88 and 89 the surface decreases to zeroclastic and becomes anticlastic.3.4.4 Pushing a monoclastic inflatable against another membraneFigure 90, Monoclastic inflatable membrane pushed against an anticlastic mechanical pre-stressed membraneFigure 91, Monoclastic inflatable membrane pushed against a zeroclastic mechanical pre-stressed membraneFigure 92, Monoclastic inflatable membrane pushed against a synclastic inflatable membraneFigure 93, Monoclastic inflatable membrane pushed against another monoclastic inflatable membraneFigure 94, Monoclastic inflatable membrane pushed against an anticlastic inflatable membraneIn Figure 90 and 94 the surface decreases the anticlastic surface of the surface pushed in.In Figure 92 the curvature decreases to zeroclastic and becomes synclastic in the opposite direction. Atthe boundary of the “negative” synclastic surface to the “positive” curvature there will be a folding line oranticlastic area (Figure 72).In Figure 93 there are two cases: 1 the mono the surfaces have the same parallel direction. In that case themonoclastic curvatures decreases to zero clastic and becomes monoclastic in the opposite direction, at theboundary of the “negative” monoclastic surface to the “positive” curvature there will be a folding line ormonoclastic area. (Figure 72). In the other case the monoclastic surfaces are not parallel. In that case themonoclastic curvatures decreases to anticlastic and becomes monoclastic in the opposite direction, at theboundary of the “negative” monoclastic surface to the “positive” curvature there will be a folding line oranticlastic area.3.4.5 Pushing an anticlastic inflatable against another membrane46
Figure 95, Anticlastic inflatable membrane pushed against an anticlastic mechanical pre-stressed membraneFigure 96, Anticlastic inflatable membrane pushed against a zeroclastic mechanical pre-stressed membraneFigure 97, Anticlastic inflatable membrane pushed against a synclastic inflatable membraneFigure 98, Anticlastic inflatable membrane pushed against a monoclastic inflatable membraneFigure 99, Anticlastic inflatable membrane pushed against another anticlastic inflatable membraneIn Figure 99 the connected area will be anticlastic. If the pre-stress in both membranes is the same the surfacewill be a minimal surface.In Figure 95 and 98 the connected area will be anticlastic. If the pre-stress in both membranes is the same thesurface will differ from a minimal surface due to the overpressure at one side.In Figure 97 the connected area is anticlastic and decreases to zeroclastic to become synclastic if the tensionin the synclastic inflatable membrane and pushing force is strong enough.This is an overview with the results of the manipulation of membranes. For a better understanding of themechanical behavior of membranes in force equilibrium against another surface in force equilibrium pleaseread more about this in the referred papers.3.5 Pushing a rigid element into or out of a membrane structure in force equilibriumFigure 98: Pushing a rigid element into or out of a membrane structure in force equilibrium47
Page 1: STRUCTURAL MEMBRANES 2011V Internat
Page 5 and 6: Textile Composites and Inflatable S
Page 7: SUMMARYPreface ....................
Page 11: ACKNOWLEDGEMENTSThe conference orga
Page 14 and 15: Preliminary Investigation of Tensai
Page 16 and 17: NUMERICAL METHODS FOR STRUCTURAL AN
Page 19: Zoomorphism and Bio-Architecture: B
Page 31 and 32: 1.1 Pre-stressed membranesPre-stres
Page 33 and 34: Figure G3, G42 FORM FINDING2.1 Phys
Page 35 and 36: of stiffness. The system oscillates
Page 37 and 38: 3.2 Changing the pre-stress in a ce
Page 39 and 40: oundary cables is lower and the sur
Page 41 and 42: 3.2.6 Inflatable membranes with a c
Page 43 and 44: 3.3.1 Force density, curvature and
Page 45 and 46: 3.3.5 Linear load on an inflatable
Page 47: Pushing surfaces in force equilibri
Page 51 and 52: 3.5.4 Pushed-in elements with a par
Page 53 and 54: 7 Surface treatment:• non• surf
Page 55 and 56: Figure 123 Concrete and the techniq
Page 57 and 58: Space-Time FSI Modeling of Ringsail
Page 59 and 60: Kenji Takizawa, Timothy Spielman an
Page 69 and 70: Pressurized Membranes for Structura
Page 71 and 72: Riccardo Barsotti and Salvatore S.
Page 79: Air Volume Elements for Distributio
Page 82 and 83: Juergen Bellmann - Air Volume Membr
Page 84 and 85: Juergen Bellmann - Air Volume Membr
Page 86 and 87: Advanced Cutting Pattern Generation
Page 88 and 89: Falko Dieringer, Roland Wüchner an
Page 94 and 95: A Rotation Free Shell Triangle with
Page 96 and 97: Fernando G. Flores and Eugenio Oña
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Fernando G. Flores and Eugenio Oña
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Shape Analysis for Inflatable Struc
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Z. M. Nizam, Hiroyuki Obiya and Kat
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Anne Maurer, Alexander Konyukhov an
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Direct Area Minimization through Dy
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Ruy M.O. Pauletti, Daniel M. Guirar
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Finding Minimal and Non-Minimal Sur
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Ruy M. O. Paulettielement nodes at
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4.53.52.51.50.5-5-554.543.532.521.5
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Ruy M. O. Paulettiiteration (1.0015
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Ruy M. O. Paulettistress field is p
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Jan M. CremersAccurate knowledge of
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Jan M. CremersPrinting the transpar
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Jan M. CremersFigure 5: Building ph
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Jan M. CremersFigure 7 and 8: PV Fl
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Jan M. Cremers3 DESIGN PROCESSThe v
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Numerical Investigation of the Stru
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Lars De Laet, Marijke Mollaert, Jan
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Shear Deformations in Inflated Cyli
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Salvatore S. Ligarò, Riccardo Bars
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R. Maffei, R. Luchsinger, A. Zanell
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J. Rodriguez, G. Rio, J.M. Cadou an
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J. Roekens, M. Mollaert, L. De Laet
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J.-C. Thomasquantify correctly the
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J.-C. ThomasWe finally obtain:l 0 =
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J.-C. ThomasRadius (m)0.260.243D re
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J.-C. Thomasdv/dx-theta (deg)3210-1
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J.-C. ThomasBending stiffness200015
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Recent Applications of Fabric Struc
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Jaime León, Carlos H. Hernández.F
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Jaime León, Carlos H. Hernández.O
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Jaime León, Carlos H. Hernández.T
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The Design and Application of Lante
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Juan G. Oliva-Salinas. Eric Valdez-
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Diana Peña, J. Ignasi Llorens, Ram
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Hubertus Pöppinghausheat through a
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Hubertus PöppinghausTextile membra
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Hubertus Pöppinghausemissivity coa
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Hubertus PöppinghausFigure 9: Meas
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Hubertus Pöppinghaus3. Small shadi
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Javier SánchezThe emergence of thi
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Javier SánchezFigure 4. Screenshot
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Javier Sánchez2.3 Dynamic interact
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Javier Sánchezcontrol polygon appe
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Experimental Manufacture of a Pneum
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A. Zanelli, C. Monticelli, P. Becca
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Lightweight PhotovoltaicsInternatio
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Thomas Ferwagner SOLARTENSION, Ligh
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Textile Membranes for Case of Emerg
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Kai Heinlein and Rosemarie Wagner.3
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Kai Heinlein and Rosemarie Wagner.A
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Numerical Investigations for an Alt
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K. Janssen-Tapken, A. Kneer, K. Rei
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Michael Karwath1 INTRODUCTIONThe ta
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Michael Karwath3 DESIGN OF THE MULT
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Michael Karwath4 DESIGN OF THE STRU
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Development and Testing of Water-Fi
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B. Koppe and B. BrinkmannThe inner
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B. Koppe and B. BrinkmannNeverthele
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B. Koppe and B. Brinkmannwater tigh
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B. Koppe and B. BrinkmannFigure 10:
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B. Koppe and B. Brinkmann[2] E.S. B
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Klaus Reimann, Aron Kneer, Corneliu
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Béguin B., Breitsamter Ch. and Ada
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Marianna Coelho, Kai-Uwe Bletzinger
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R. Flores, E. Ortega and E. Oñate.
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M. Gebhardt, A. Maurer and K. Schwe
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Multiscale Sequentially-Coupled FSI
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Kenji Takizawa, Samuel Wright, Jaso
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Structural Dynamic FaçadeInternati
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A.P.H.W. HabrakenIt is therefore mo
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A.P.H.W. Habraken3 DYNAMIC BEHAVIOU
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A.P.H.W. HabrakenFigure 7: Impressi
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A.P.H.W. Habraken3 PROJECT 2 - PNEU
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A.P.H.W. HabrakenThe pneumatic buil
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Concrete Shell Structures Revisited
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Frank Huijben, Frans van Herwijnen
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The Use of Fabrics as Formwork for
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R.PedreschiAn important aspect of t
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R.PedreschiIn collaboration with a
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R.Pedreschimomnent in a uniformly l
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R.PedreschiFigure 11 Concrete shell
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R.Pedreschiacknowledged to name the
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International Conference on Textile
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Robert P. Schmitz, P.E.concrete mem
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Robert P. Schmitz, P.E.the structur
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Robert P. Schmitz, P.E.2.3 Step 1 -
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Robert P. Schmitz, P.E.actually bei
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Robert P. Schmitz, P.E.ADINA: AUI v
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Robert P. Schmitz, P.E.in saving FE
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Alberto Gómez-González, Javier Ne
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Krisztián HinczFigure 1: Side view
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Krisztián HinczFigure 4: Floor pla
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Krisztián HinczFigure 8: Floor pla
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Krisztián Hincz6000Maximum normal
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Krisztián Hinczconsist of two effe
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Krisztián HinczMaximum stress in t
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Thomas Kuhn, Harald Langer, Sebasti
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Marijke Mollaert, Lars De Laet, Jan
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Lightweight and Transparent CoversI
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Izis Salvador Pinto and Ben Morris.
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Izis Salvador Pinto and Ben Morris.
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Membrane Restrained ColumnsInternat
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H. Alpermann, C. Gengnagelby the pr
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H. Alpermann, C. GengnagelLooking a
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H. Alpermann, C. GengnagelFigure 6:
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H. Alpermann, C. GengnagelRegarding
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SOFT.SPACES _ New Strategies for Me
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Günther H. Filz5 INVESTIGATIONThe
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Günther H. Filzmostly curved surfa
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Günther H. FilzFig. 21 Overview ve
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Günther H. Filzproportionally to a
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Günther H. FilzCase-Study GThe for
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Günther H. FilzThe definition of t
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Direct Minimization Approaches on S
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M. Miki and K. Kawaguchiwas constan
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M. Miki and K. Kawaguchiimmediately
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M. Miki and K. Kawaguchiused instea
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M. Miki and K. Kawaguchi1 α γβN
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M. Miki and K. KawaguchiFig. 10 sho
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Reframing Textiles into Architectur
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I. Vrouwe, M. Feijen, R. Houtman an
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Step by Step Cost Estimation Tool f
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Robert Wehdorn-Roithmayr, Mario Gir
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Robert Wehdorn-Roithmayr, Mario Gir
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Improvement of the System of Modula
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Romuald Tarczewski, Waldemar Bober2
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Romuald Tarczewski, Waldemar BoberF
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Romuald Tarczewski, Waldemar Bober3
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Homogenization and Modeling of Fibe
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S. Fillep and P. Steinmannapplicati
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S. Fillep and P. SteinmannThe contr
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S. Fillep and P. Steinmannfor heter
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S. Fillep and P. Steinmannstrategy,
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Dezsı HegyiBy taking into account
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Dezsı Hegyi⊗=. 0(9)For small elo
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Dezsı Hegyi~ ~ ⋅=⋅00 ,(19)if t
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Dezsı Hegyi⎡ ∂ ⎤⎢ 0∂ξ
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Evaluation of the Structural Behavi
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Carlos H. Hernández.T= 35°CTemper
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Carlos H. Hernández.Figure 4 : sup
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Carlos H. Hernández.environment. T
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Carlos H. Hernández.the edges with
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Carlos H. Hernández.CONCLUSIONS- T
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Katsushi Ijima, Hiroyuki Obiya and
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Form-finding of Extensive Tensegrit
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A. Matsuo, H. Obiya, K. Ijima and Z
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Matthias Römmelt, Anastasia August
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Mechanics of Local Buckling in Wrap
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Yasutaka Satou and Hiroshi Furuya5M
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Yasutaka Satou and Hiroshi Furuyaan
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Yasutaka Satou and Hiroshi Furuyaan
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Yasutaka Satou and Hiroshi FuruyaIn
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Cédric Galliot and Rolf H. Luchsin
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Jörg Uhlemann, Natalie Stranghöne
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James R. Ward, John Chilton and Lan
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Authors IndexAuthors IndexAdams N..
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This volume contains the full lengt
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