ta) ORGANIZATION NCEPT OUND LEVEL Fig 4-1 CALLS FOR OPEV ESS 日YWAY OF CE-s上-COURT TO EACH OF FO',三“EPENDENT SPACE COMPO (E)TO(A.B.C.8.D) Major space components as basic structural SOACE FORN SCHEMES OVERALL subsystem TOTAL STRUCTURAL SYSTEM SCHEME CALLS FOR FOUR INDEPENDENT TUBE (OR BOX) STRUCTURES TO BE CANTILEVERED OVER FOUR SHEAR RESISTING PIERS d OVERALL SCHEME FOR INTERACTION OF TUBE STRUCTURE COMPONENTS AS A SUBSYSTEM 入 FNDE WAS DPIERS 乐2装颺 ROrLOO SAICONY LOSES E隔g2坚IOLOAD HORIONTAL IADS
Fig 4-1 Major space components as basic structural subsystem
Fig.4-2 (a) WHEN VIEWED AS A WHOLE,A FOLDED ROOF SUGGESTS THE POSSIBILITY OF BEING DESIGNED TO ACT AS A FOLDED PLATE SUB-SYSTEM Major space components as structural [b) WHEN DESIGNED AS WHOLES.THE FLANGE-WEB INTERACTION OF THE FOLDED WALLS CAN BE subsystem MUCH STIFFER THAN FOR FLAT DESIGN ONLY icl A LARGE AND CENTRALIZED VERTICAL CIRCULATION SPACE MAY BE DESIGNED TO ACT AS A CORE TUBE SUBSYSTEM d A COMBINATION OF SHEAR WALL AND MEGA-FRAME ACTION CAN BE VISUALIZED BY CONSIDERING THAT THE UPPERMOST HALL SPACE CAN BE DESIGNED TO CONNECT THE SLENDER SHAFTS
Fig. 4-2 Major space components as structural subsystem