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BY:
ABHISHEK GOEL
AMAN NEGI
JYOTI AHLAWAT
PRADEEP VERMA
SAJIDA SHAHNUM
SONALI JAIN
TSERING CHOEZO
•A TRUSS-LIKE, LIGHTWEIGHT RIGID STRUCTURE CONSTRUCTED FROM
INTERLOCKING STRUTS IN A GEOMETRIC PATTERN.
•SPACE FRAMES CAN BE USED TO SPAN LARGE AREAS WITH FEW INTERIOR
SUPPORTS.
•A SPACE FRAME IS STRONG BECAUSE OF
• A SPACE FRAME IS STRONG BECAUSE OF :
• THE INHERENT RIGIDITY OF THE TRIANGLE;
• FLEXING LOADS (BENDING MOMENTS) ARE TRANSMITTED AS TENSION
AND COMPRESSION LOADS ALONG THE LENGTH OF EACH STRUT.
LOAD
DISTRIBUTION
•STRONGER FORM IS COMPOSED OF INTERLOCKING TETRAHEDRA IN WHICH ALL THE STRUTS HAVE
UNIT LENGTH.
•MORE TECHNICALLY THIS IS REFERRED TO AS
AN ISOTROPIC VECTOR MATRIX OR IN A SINGLE
UNIT WIDTH AN OCTET TRUSS.
•MORE COMPLEX VARIATIONS CHANGE THE LENGTHS OF THE STRUTS
TO CURVE THE OVER ALL STRUCTURE OR MAY INCORPORATE OTHER
GEOMETRICAL SHAPES.
•HORIZONTAL SLAB OF INTERLOCKING SQUARE,
PYRAMIDS AND TETRAHEDRA BUILT FROM ALUMINIUM
OR TUBULAR STEEL STRUTS.
•SPACE FRAMES WERE INDEPENDENTLY DEVELOPED BY ALEXANDER GRAHAM BELL AROUND
1900 .
•BELL'S INTEREST WAS PRIMARILY IN USING THEM TO MAKE RIGID FRAMES FOR NAUTICAL AND
AERONAUTICAL ENGINEERING, WITH THE TETRAHEDRAL TRUSS BEING ONE OF HIS INVENTIONS,
HOWEVER FEW OF HIS DESIGNS WERE REALIZED.
•BUCKMINSTERFULLERINTHE1950S DEVELOPED FRAMES INDEPENDENTLY, FULLER'S FOCUS WAS
ARCHITECTURALSTRUCTURES AND HIS WORK HAD GREATER INFLUENCE.
BUCKMINISTERFULLER GEODESIC DOME GRAHAMBELL SPACE FRAME DESIGN
•PLATFORM OR OVERHEAD STRUCTURE THAT SPANS LARGE DISTANCES WITHOUT NEED FOR
INTERNAL LOADBEARINGS UPPORT.
•IN THE PAST FEW DECADES, THE SPREAD OF SPACE FRAME WAS MAINLY DUE TO ITS GREAT
STRUCTURAL POTENTIALAND VISUAL BEAUTY . NEW AND IMAGINATIVE APPLICATIONS OF SPACE
FRAMES ARE BEING DEMONSTRATED IN THE TOTAL RANGE OF BUILDING TYPES,LIKE:
•SPORTS ARENAS
•EXHIBITION PAVILIONS
•ASSEMBLY HALLS
•TRANSPORTATION TERMINALS
•AIRPLANE HANGARS
•WORKSHOPS, AND WAREHOUSES ENCLOSURES
•MANY INTERESTING PROJECTS HAVE BEEN DESIGNED AND CONSTRUCTEDALL OVER THE
WORLD USING A VARIETY OF CONFIGURATIONS
•LIGHTWEIGHT -THIS IS MAINLY DUE TO THE FACT THAT MATERIAL IS DISTRIBUTED
SPATIALLY IN SUCH A WAY THAT THE LOAD TRANSFER MECHANISM IS PRIMARILY AXIAL;
TENSION OR COMPRESSION. CONSEQUENTLY, ALL MATERIAL IN ANY GIVEN ELEMENT IS
UTILIZED TO ITS FULL EXTENT. FURTHERMORE, MOST SPACE FRAMES ARE NOW CONSTRUCTED
WITH ALUMINUM, WHICH DECREASES CONSIDERABLY THEIR SELF-WEIGHT.
• MASS PRODUCTIVITY-SPACE FRAMES CAN BE BUILT FROM SIMPLE
PREFABRICATED UNITS,WHICH ARE OFTEN OF STANDARD SIZE AND SHAPE. SUCH UNITS CAN
BE EASILY TRANSPORTED AND RAPIDLY ASSEMBLED ON SITE BY SEMI-SKILLED
LABOR.CONSEQUENTLY,SPACE FRAMES CAN BE BUILT AT A LOWER COST.
•STIFFNESS-A SPACE FRAME IS USUALLY SUFFICIENTLY STIFF IN SPITE OF ITS LIGHTNESS. THIS IS
DUE TO ITS THREE- DIMENSIONAL CHARACTER AND TO THE FULL PARTICIPATION OF ITS
CONSTITUENT ELEMENTS.
•VERSATILITY -SPACE FRAMES POSSESS A VERSATILITY OF SHAPE AND FORM AND CAN
UTILIZE A STANDARD MODULE TO GENERATE VARIOUS FLAT SPACE GRIDS,LATTICED
SHELL, OR EVEN FREE-FORM SHAPES. ARCHITECTS APPRECIATE THE VISUAL BEAUTY AND
THE IMPRESSIVE SIMPLICITY OF LINES IN SPACE FRAMES
•A SPACE FRAMES ALONG-SPANNING THREE-DIMENSIONAL PLATE STRUCTURE BASED ON THE
RIGIDITY OF THE TRIANGLE AND COMPOSED OF LINEAR ELEMENTS SUBJECT ONLY TO AXIAL TENSION
OR COMPRESSION, EVEN IN THE CASE OF CONNECTION BY COMPARATIVELY RIGID JOINTS, THE
INFLUENCE OF BENDING OR TORSIONAL MOMENT IS INSIGNIFICANT.
THE FORCES ARE ACT ONLY ALONG THE AXIS OF
THE MEMBERS ARE HAVING TENSION OF
COMPRESSION.
 EACH MEMBER IS ACTED UPON BY TWO EQUAL
AND OPPOSITE FORCES HAVING LINE OF ACTION
ALONG THE CENTRE OF MEMBERS I.E. EVERY
MEMBER OF IT IS TWO FORCE MEMBER.
 MEMBERS ARE SUBJECTED TO
TENSION/COMPRESSION ONLY.
 FORCES ARE APPLIED ON JOINTS ONLY.
 USUALLY, MORE SIMPLE TO CALCULATE, MORE
WEIGHT EFFECTIVE.
 THE FORCES ARE ACTING ALONG THE AXIS OF
THE MEMBER. IN ADDITION TO TRANSVERSE
FORCES.
 ONE OR MORE THEN ONE MEMBER OF FRAME IS
SUBJECTED TO MORE THEN TWO
FORCES.(MULTIPLE FORCE MEMBERS)
 AT LEAST ONE MEMBER IS SUBJECTED TO
BENDING, SHEAR OR TORSION.
 FORCES MAY ACT ANYWHERE ON THE
MEMBERS.
 USUALLY MORE SIMPLE TO MANUFACTURE
AND TO PLACE IN TIGHT LAYOUT.
Plain frames SPACE FRAMES
PLAIN FRAMES
SPACE FRAMES
In plain frame truss m=2n-3, where m is total number of members and n is total
number of joints.
In plain frame truss m=3n-6, where m is total number of members and n is total
number of joints.
ACCORDING TO NUMBER OF GRID LAYERSACCORDING TO CURVATURE
FLATCOVERS
BARRELVAULTS
SPHERICALDOMES
SINGLE-LAYER
DOUBLE-LAYER
TRIPLE-LAYER
•FLATCOVERS
•THESE STRUCTURES ARE COMPOSED OF PLANAR SUBSTRUCTURES. THE PLANE ARE CHANNELED
THROUGH THE HORIZONTAL BARS AND THE SHEAR FORCES ARE SUPPORTED BY THE
DIAGONALS.
•BARRELVAULTS
•THIS TYPE OF VAULT HAS A CROSS SECTIONOF A SIMPLE ARCH. USUALLY THIS TYPE OF SPACE
FRAME DOES NOT NEED TO USE TETRAHEDRAL MODULESORPYRAMIDSASAPARTOF
ITSBACKING.
HEYDER ALIYEV CENTRE BY ZAHA HADID
LOAD DISTRIBUTION
•SPHERICAL DOMES THESE DOMES USUALLY REQUIRE THE USE OF TETRAHEDRAL MODULES OR
PYRAMIDS AND ADDITIONAL SUPPORT FROM A SKIN.
CONSTRUCTION LAYERS OF DOUBLE BRACCED DOME
FREE FORM SPACE FRAME
SINGLE-LAYER -ALL ELEMENTS ARE LOCATED ON THE SURFACETOBEAPPROXIMATED.
1.5 layer
DOUBLE-LAYER
•THE ELEMENTS ARE ORGANIZED IN TWO PARALLEL LAYERS WITH EACH
OTHERATACERTAINDISTANCEAPART. THE DIAGONAL BARS CONNECTING THE
NODES OF BOTH LAYERS IN DIFFERENT DIRECTIONS IN SPACE.
•DURING DESIGN STAGES TO UTILIZE TWO WAY SPANNING CAPACITY OD DLG
ASPECT RATION SHOULD NOT EXCEED 1.5:1.
TRIPLE-LAYER
•ELEMENTS ARE PLACED IN THREE PARALLEL LAYERS, LINKED BY THE DIAGONALS. THEY
ARE ALMOST ALWAYS FLAT. THIS SOLUTION IS TO DECREASE THE DIAGONAL MEMBERS
LENGTH.
JOINTS
• IN A SPACE FRAME,
CONNECTING JOINTS PLAY
AN IMPORTANTROLE, BOTH
FUNCTIONAL AND
ESTHETIC, WHICH DERIVES
FROM THEIR RATIONALITY
DURING CONSTRUCTION
AND AFTER COMPLETION.
•SINCE JOINTS HAVE A
DECISIVE EFFECT ON
THESTRENGTH AND
STIFFNESS OF THE
STRUCTURE AND COMPOSE
AROUND 20 TO 30 PERCENT
OF THE TOTAL WEIGHT,
JOINT DESIGN IS CRITICAL
TO SPACE FRAME ECONOMY
AND SAFETY .
MEMBER
• MEMBERS ARE AXIAL
ELEMENTS WITH CIRCULAR
OR RECTANGULAR
SECTIONS, ALL MEMBERS
CAN ONLY RESIST TENSION
OR COMPRESSION.
•THE SPACE GRID IS BUILT
OF RELATIVELY LONG
TENSION MEMBERS AND
SHORT COMPRESSION
MEMBERS. A TREND IS
VERY NOTICEABLE IN
WHICH THE STRUCTURAL
MEMBERS ARE LEFT
EXPOSED AS A PART OF THE
ARCHITECTURAL
EXPRESSION
WELDED CONNECTION BOLTED CONNECTION THREADED CONNECTION
•THE MERO CONNECTOR, INTRODUCED IN 1948 BY DR. MONGERINGHAUSEN, PROVED TO BE
EXTREMELY POPULAR AND HAS BEEN USED FOR NUMEROUS TEMPORARY AND PERMANENT
BUILDINGS.
•ITS JOINT CONSISTS OF A NODE THAT IS A SPHERICAL HOT-PRESSED STEEL FORGING WITH
FLAT FACETS AND TAPPED HOLES. MEMBERS ARE CIRCULAR HOLLOW SECTIONS WITH CONE-
SHAPED STEEL FORGINGS WELDED AT THE ENDS,WHICH ACCOMMODATE CONNECTING
BOLTS.
SPHERICAL
HOT-PRESSED
STEEL FORGING
•THE MERO CONNECTOR WAS ORIGINALLY DEVELOPED FOR DOUBLE-LAYER GRIDS. DUE TO THE
INCREASING USE OF NON-PLANAR ROOF FORMS, IT IS REQUIRED TO CONSTRUCT THE LOAD-BEARING
SPACE FRAME INTEGRATED WITH THE CLADDING ELEMENT.
•ANEW TYPEOF JOINTING SYSTEM CALLEDMEROPLUSSYSTEMWAS DEVELOPED SO THAT A VARIETY
OF CURVED AND FOLDED STRUCTURES ARE POSSIBLE.
•THE METHOD CHOSEN FOR ERECTION OF A SPACE FRAME DEPENDS ON:
• ITS BEHAVIOR OF LOAD TRANSMISSION
•CONSTRUCTIONAL DETAILS, SO THAT IT WILL MEET THE OVER ALL REQUIREMENTS OF QUALITY,
SAFETY,SPEED OF CONSTRUCTION,AND ECONOMY
•THE SCALE OF THE STRUCTURE BEING BUILT,THE METHOD OF JOINTING THE INDIVIDUAL ELEMENTS,
AND THE STRENGTH AND RIGIDITY OF THE SPACE FRAME UNTIL ITS
FORMISCLOSEDMUSTALLBECONSIDERED.
•INDIVIDUAL ELEMENTS ARE ASSEMBLED IN PLACE AT ACTUAL ELEVATIONS, MEMBERS AND
JOINTS OR PREFABRICATED SUBASSEMBLY ELEMENTS ARE ASSEMBLED DIRECTLY ON THEIR
FINAL POSITION.
•FULL SCAFFOLDINGS ARE USUALLY REQUIRED FOR THIS TYPEOF ERECTION. SOMETIMES ONLY
PARTIAL SCAFFOLDINGS ARE USED IF CANTILEVER ERECTION OF SPACE FRAME
CANBEEXECUTED. THE ELEMENTS ARE FABRICATED AT THE SHOP AND TRANSPORTED TO THE
CONSTRUCTION SITE,AND NO HEAVY LIFTING EQUIPMENT IS REQUIRED.
•THE SPACE FRAME IS DIVIDED ON ITS PLAN INTO INDIVIDUAL STRIPS OR BLOCKS. THESE UNITS
ARE FABRICATED ON THE GROUND LEVEL, THEN HOISTED UP INTO ITS FINAL POSITION AND
ASSEMBLED ON THE TEMPORARY SUPPORTS.
•WITH MORE WORK BEING DONE ON THE GROUND, THE AMOUNT OF ASSEMBLING WORKATHIGH
ELEVATION IS REDUCED. THIS METHOD IS SUITABLE FOR THOSE DOUBLE LAYER GRIDS WHERE THE
STIFFNESS AND LOAD-RESISTING BEHAVIOR WILL NOT CHANGE CONSIDERABLY AFTER DIVIDING
INTO STRIPS ORBLOCKS,SUCHAS TWO-WAY ORTHOGONAL LATTICED GRIDS,ORTHOGONAL SQUARE
PYRAMID SPACE GRIDS, AND THE THOSE WITH OPENINGS. THE SIZE OF EACH UNIT WILL DEPEND
ON THE HOISTING CAPACITY AVAILABLE.
•THE WHOLE SPACE FRAME IS ASSEMBLED AT GROUND LEVEL SO THAT MOST OF THE WORK CAN
BE DONE BEFORE HOISTING. THIS WILL RESULT IN INCREASED EFFICIENCYAND BETTER QUALITY.
FOR SHORT AND MEDIUM SPANS, THE SPACE FRAME CAN BE HOISTED UP BY SEVERAL CRANES.
• FOR LONG-SPAN SPACE FRAME,TEMPORARY POSTS ARE USED AS THE SUPPORT AND ELECTRIC
WINCHES AS THE LIFTING POWER.THE WHOLE SPACE FRAME CAN BE TRANSLATED OR ROTATED IN
THE AIR AND THEN SEATED ON ITS FINAL POSITION. THIS METHOD CAN BE EMPLOYED TO ALL
TYPES OF DOUBLE-LAYER GRIDS.
•THE SPACE FRAME GRID GEOMETRY TAKES 5
GEOMETRIC OPERATIONS TO CREATED THE
CORRESPONDING GRID TO ULTIMATELY CREATED
A DOUBLE LAYER SPACE FRAME.
•THE VERTICES ON THE GRID(GI) ARE CONNECTED
TO IDENTIFY THE 3 DIMENSIONAL JOINT(3DN) AND
BY CONNECTING THE 3DN THE SEMI-REGULAR IS
CONSTRUCTED.
LASTLY,OVERLAY ALL OF THE SYATEMS, THE
STRUCTURAL MEMBERS OF THE SPACE FRAME.
HALL OF NATION
PRAGATI MAIDAN
PRAGATI MAIDAN HALL NO-18

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Space frames!

  • 1. S P A C E F R A M E BY: ABHISHEK GOEL AMAN NEGI JYOTI AHLAWAT PRADEEP VERMA SAJIDA SHAHNUM SONALI JAIN TSERING CHOEZO
  • 2. •A TRUSS-LIKE, LIGHTWEIGHT RIGID STRUCTURE CONSTRUCTED FROM INTERLOCKING STRUTS IN A GEOMETRIC PATTERN. •SPACE FRAMES CAN BE USED TO SPAN LARGE AREAS WITH FEW INTERIOR SUPPORTS. •A SPACE FRAME IS STRONG BECAUSE OF • A SPACE FRAME IS STRONG BECAUSE OF : • THE INHERENT RIGIDITY OF THE TRIANGLE; • FLEXING LOADS (BENDING MOMENTS) ARE TRANSMITTED AS TENSION AND COMPRESSION LOADS ALONG THE LENGTH OF EACH STRUT. LOAD DISTRIBUTION
  • 3. •STRONGER FORM IS COMPOSED OF INTERLOCKING TETRAHEDRA IN WHICH ALL THE STRUTS HAVE UNIT LENGTH. •MORE TECHNICALLY THIS IS REFERRED TO AS AN ISOTROPIC VECTOR MATRIX OR IN A SINGLE UNIT WIDTH AN OCTET TRUSS. •MORE COMPLEX VARIATIONS CHANGE THE LENGTHS OF THE STRUTS TO CURVE THE OVER ALL STRUCTURE OR MAY INCORPORATE OTHER GEOMETRICAL SHAPES. •HORIZONTAL SLAB OF INTERLOCKING SQUARE, PYRAMIDS AND TETRAHEDRA BUILT FROM ALUMINIUM OR TUBULAR STEEL STRUTS.
  • 4. •SPACE FRAMES WERE INDEPENDENTLY DEVELOPED BY ALEXANDER GRAHAM BELL AROUND 1900 . •BELL'S INTEREST WAS PRIMARILY IN USING THEM TO MAKE RIGID FRAMES FOR NAUTICAL AND AERONAUTICAL ENGINEERING, WITH THE TETRAHEDRAL TRUSS BEING ONE OF HIS INVENTIONS, HOWEVER FEW OF HIS DESIGNS WERE REALIZED. •BUCKMINSTERFULLERINTHE1950S DEVELOPED FRAMES INDEPENDENTLY, FULLER'S FOCUS WAS ARCHITECTURALSTRUCTURES AND HIS WORK HAD GREATER INFLUENCE. BUCKMINISTERFULLER GEODESIC DOME GRAHAMBELL SPACE FRAME DESIGN
  • 5. •PLATFORM OR OVERHEAD STRUCTURE THAT SPANS LARGE DISTANCES WITHOUT NEED FOR INTERNAL LOADBEARINGS UPPORT. •IN THE PAST FEW DECADES, THE SPREAD OF SPACE FRAME WAS MAINLY DUE TO ITS GREAT STRUCTURAL POTENTIALAND VISUAL BEAUTY . NEW AND IMAGINATIVE APPLICATIONS OF SPACE FRAMES ARE BEING DEMONSTRATED IN THE TOTAL RANGE OF BUILDING TYPES,LIKE: •SPORTS ARENAS •EXHIBITION PAVILIONS •ASSEMBLY HALLS •TRANSPORTATION TERMINALS •AIRPLANE HANGARS •WORKSHOPS, AND WAREHOUSES ENCLOSURES
  • 6. •MANY INTERESTING PROJECTS HAVE BEEN DESIGNED AND CONSTRUCTEDALL OVER THE WORLD USING A VARIETY OF CONFIGURATIONS
  • 7. •LIGHTWEIGHT -THIS IS MAINLY DUE TO THE FACT THAT MATERIAL IS DISTRIBUTED SPATIALLY IN SUCH A WAY THAT THE LOAD TRANSFER MECHANISM IS PRIMARILY AXIAL; TENSION OR COMPRESSION. CONSEQUENTLY, ALL MATERIAL IN ANY GIVEN ELEMENT IS UTILIZED TO ITS FULL EXTENT. FURTHERMORE, MOST SPACE FRAMES ARE NOW CONSTRUCTED WITH ALUMINUM, WHICH DECREASES CONSIDERABLY THEIR SELF-WEIGHT. • MASS PRODUCTIVITY-SPACE FRAMES CAN BE BUILT FROM SIMPLE PREFABRICATED UNITS,WHICH ARE OFTEN OF STANDARD SIZE AND SHAPE. SUCH UNITS CAN BE EASILY TRANSPORTED AND RAPIDLY ASSEMBLED ON SITE BY SEMI-SKILLED LABOR.CONSEQUENTLY,SPACE FRAMES CAN BE BUILT AT A LOWER COST. •STIFFNESS-A SPACE FRAME IS USUALLY SUFFICIENTLY STIFF IN SPITE OF ITS LIGHTNESS. THIS IS DUE TO ITS THREE- DIMENSIONAL CHARACTER AND TO THE FULL PARTICIPATION OF ITS CONSTITUENT ELEMENTS. •VERSATILITY -SPACE FRAMES POSSESS A VERSATILITY OF SHAPE AND FORM AND CAN UTILIZE A STANDARD MODULE TO GENERATE VARIOUS FLAT SPACE GRIDS,LATTICED SHELL, OR EVEN FREE-FORM SHAPES. ARCHITECTS APPRECIATE THE VISUAL BEAUTY AND THE IMPRESSIVE SIMPLICITY OF LINES IN SPACE FRAMES
  • 8. •A SPACE FRAMES ALONG-SPANNING THREE-DIMENSIONAL PLATE STRUCTURE BASED ON THE RIGIDITY OF THE TRIANGLE AND COMPOSED OF LINEAR ELEMENTS SUBJECT ONLY TO AXIAL TENSION OR COMPRESSION, EVEN IN THE CASE OF CONNECTION BY COMPARATIVELY RIGID JOINTS, THE INFLUENCE OF BENDING OR TORSIONAL MOMENT IS INSIGNIFICANT.
  • 9. THE FORCES ARE ACT ONLY ALONG THE AXIS OF THE MEMBERS ARE HAVING TENSION OF COMPRESSION.  EACH MEMBER IS ACTED UPON BY TWO EQUAL AND OPPOSITE FORCES HAVING LINE OF ACTION ALONG THE CENTRE OF MEMBERS I.E. EVERY MEMBER OF IT IS TWO FORCE MEMBER.  MEMBERS ARE SUBJECTED TO TENSION/COMPRESSION ONLY.  FORCES ARE APPLIED ON JOINTS ONLY.  USUALLY, MORE SIMPLE TO CALCULATE, MORE WEIGHT EFFECTIVE.  THE FORCES ARE ACTING ALONG THE AXIS OF THE MEMBER. IN ADDITION TO TRANSVERSE FORCES.  ONE OR MORE THEN ONE MEMBER OF FRAME IS SUBJECTED TO MORE THEN TWO FORCES.(MULTIPLE FORCE MEMBERS)  AT LEAST ONE MEMBER IS SUBJECTED TO BENDING, SHEAR OR TORSION.  FORCES MAY ACT ANYWHERE ON THE MEMBERS.  USUALLY MORE SIMPLE TO MANUFACTURE AND TO PLACE IN TIGHT LAYOUT. Plain frames SPACE FRAMES
  • 10. PLAIN FRAMES SPACE FRAMES In plain frame truss m=2n-3, where m is total number of members and n is total number of joints. In plain frame truss m=3n-6, where m is total number of members and n is total number of joints.
  • 11. ACCORDING TO NUMBER OF GRID LAYERSACCORDING TO CURVATURE FLATCOVERS BARRELVAULTS SPHERICALDOMES SINGLE-LAYER DOUBLE-LAYER TRIPLE-LAYER
  • 12. •FLATCOVERS •THESE STRUCTURES ARE COMPOSED OF PLANAR SUBSTRUCTURES. THE PLANE ARE CHANNELED THROUGH THE HORIZONTAL BARS AND THE SHEAR FORCES ARE SUPPORTED BY THE DIAGONALS.
  • 13. •BARRELVAULTS •THIS TYPE OF VAULT HAS A CROSS SECTIONOF A SIMPLE ARCH. USUALLY THIS TYPE OF SPACE FRAME DOES NOT NEED TO USE TETRAHEDRAL MODULESORPYRAMIDSASAPARTOF ITSBACKING. HEYDER ALIYEV CENTRE BY ZAHA HADID LOAD DISTRIBUTION
  • 14. •SPHERICAL DOMES THESE DOMES USUALLY REQUIRE THE USE OF TETRAHEDRAL MODULES OR PYRAMIDS AND ADDITIONAL SUPPORT FROM A SKIN. CONSTRUCTION LAYERS OF DOUBLE BRACCED DOME FREE FORM SPACE FRAME
  • 15. SINGLE-LAYER -ALL ELEMENTS ARE LOCATED ON THE SURFACETOBEAPPROXIMATED. 1.5 layer
  • 16. DOUBLE-LAYER •THE ELEMENTS ARE ORGANIZED IN TWO PARALLEL LAYERS WITH EACH OTHERATACERTAINDISTANCEAPART. THE DIAGONAL BARS CONNECTING THE NODES OF BOTH LAYERS IN DIFFERENT DIRECTIONS IN SPACE. •DURING DESIGN STAGES TO UTILIZE TWO WAY SPANNING CAPACITY OD DLG ASPECT RATION SHOULD NOT EXCEED 1.5:1.
  • 17. TRIPLE-LAYER •ELEMENTS ARE PLACED IN THREE PARALLEL LAYERS, LINKED BY THE DIAGONALS. THEY ARE ALMOST ALWAYS FLAT. THIS SOLUTION IS TO DECREASE THE DIAGONAL MEMBERS LENGTH.
  • 18. JOINTS • IN A SPACE FRAME, CONNECTING JOINTS PLAY AN IMPORTANTROLE, BOTH FUNCTIONAL AND ESTHETIC, WHICH DERIVES FROM THEIR RATIONALITY DURING CONSTRUCTION AND AFTER COMPLETION. •SINCE JOINTS HAVE A DECISIVE EFFECT ON THESTRENGTH AND STIFFNESS OF THE STRUCTURE AND COMPOSE AROUND 20 TO 30 PERCENT OF THE TOTAL WEIGHT, JOINT DESIGN IS CRITICAL TO SPACE FRAME ECONOMY AND SAFETY . MEMBER • MEMBERS ARE AXIAL ELEMENTS WITH CIRCULAR OR RECTANGULAR SECTIONS, ALL MEMBERS CAN ONLY RESIST TENSION OR COMPRESSION. •THE SPACE GRID IS BUILT OF RELATIVELY LONG TENSION MEMBERS AND SHORT COMPRESSION MEMBERS. A TREND IS VERY NOTICEABLE IN WHICH THE STRUCTURAL MEMBERS ARE LEFT EXPOSED AS A PART OF THE ARCHITECTURAL EXPRESSION
  • 19. WELDED CONNECTION BOLTED CONNECTION THREADED CONNECTION
  • 20. •THE MERO CONNECTOR, INTRODUCED IN 1948 BY DR. MONGERINGHAUSEN, PROVED TO BE EXTREMELY POPULAR AND HAS BEEN USED FOR NUMEROUS TEMPORARY AND PERMANENT BUILDINGS. •ITS JOINT CONSISTS OF A NODE THAT IS A SPHERICAL HOT-PRESSED STEEL FORGING WITH FLAT FACETS AND TAPPED HOLES. MEMBERS ARE CIRCULAR HOLLOW SECTIONS WITH CONE- SHAPED STEEL FORGINGS WELDED AT THE ENDS,WHICH ACCOMMODATE CONNECTING BOLTS. SPHERICAL HOT-PRESSED STEEL FORGING •THE MERO CONNECTOR WAS ORIGINALLY DEVELOPED FOR DOUBLE-LAYER GRIDS. DUE TO THE INCREASING USE OF NON-PLANAR ROOF FORMS, IT IS REQUIRED TO CONSTRUCT THE LOAD-BEARING SPACE FRAME INTEGRATED WITH THE CLADDING ELEMENT. •ANEW TYPEOF JOINTING SYSTEM CALLEDMEROPLUSSYSTEMWAS DEVELOPED SO THAT A VARIETY OF CURVED AND FOLDED STRUCTURES ARE POSSIBLE.
  • 21. •THE METHOD CHOSEN FOR ERECTION OF A SPACE FRAME DEPENDS ON: • ITS BEHAVIOR OF LOAD TRANSMISSION •CONSTRUCTIONAL DETAILS, SO THAT IT WILL MEET THE OVER ALL REQUIREMENTS OF QUALITY, SAFETY,SPEED OF CONSTRUCTION,AND ECONOMY •THE SCALE OF THE STRUCTURE BEING BUILT,THE METHOD OF JOINTING THE INDIVIDUAL ELEMENTS, AND THE STRENGTH AND RIGIDITY OF THE SPACE FRAME UNTIL ITS FORMISCLOSEDMUSTALLBECONSIDERED.
  • 22. •INDIVIDUAL ELEMENTS ARE ASSEMBLED IN PLACE AT ACTUAL ELEVATIONS, MEMBERS AND JOINTS OR PREFABRICATED SUBASSEMBLY ELEMENTS ARE ASSEMBLED DIRECTLY ON THEIR FINAL POSITION. •FULL SCAFFOLDINGS ARE USUALLY REQUIRED FOR THIS TYPEOF ERECTION. SOMETIMES ONLY PARTIAL SCAFFOLDINGS ARE USED IF CANTILEVER ERECTION OF SPACE FRAME CANBEEXECUTED. THE ELEMENTS ARE FABRICATED AT THE SHOP AND TRANSPORTED TO THE CONSTRUCTION SITE,AND NO HEAVY LIFTING EQUIPMENT IS REQUIRED.
  • 23. •THE SPACE FRAME IS DIVIDED ON ITS PLAN INTO INDIVIDUAL STRIPS OR BLOCKS. THESE UNITS ARE FABRICATED ON THE GROUND LEVEL, THEN HOISTED UP INTO ITS FINAL POSITION AND ASSEMBLED ON THE TEMPORARY SUPPORTS. •WITH MORE WORK BEING DONE ON THE GROUND, THE AMOUNT OF ASSEMBLING WORKATHIGH ELEVATION IS REDUCED. THIS METHOD IS SUITABLE FOR THOSE DOUBLE LAYER GRIDS WHERE THE STIFFNESS AND LOAD-RESISTING BEHAVIOR WILL NOT CHANGE CONSIDERABLY AFTER DIVIDING INTO STRIPS ORBLOCKS,SUCHAS TWO-WAY ORTHOGONAL LATTICED GRIDS,ORTHOGONAL SQUARE PYRAMID SPACE GRIDS, AND THE THOSE WITH OPENINGS. THE SIZE OF EACH UNIT WILL DEPEND ON THE HOISTING CAPACITY AVAILABLE.
  • 24. •THE WHOLE SPACE FRAME IS ASSEMBLED AT GROUND LEVEL SO THAT MOST OF THE WORK CAN BE DONE BEFORE HOISTING. THIS WILL RESULT IN INCREASED EFFICIENCYAND BETTER QUALITY. FOR SHORT AND MEDIUM SPANS, THE SPACE FRAME CAN BE HOISTED UP BY SEVERAL CRANES. • FOR LONG-SPAN SPACE FRAME,TEMPORARY POSTS ARE USED AS THE SUPPORT AND ELECTRIC WINCHES AS THE LIFTING POWER.THE WHOLE SPACE FRAME CAN BE TRANSLATED OR ROTATED IN THE AIR AND THEN SEATED ON ITS FINAL POSITION. THIS METHOD CAN BE EMPLOYED TO ALL TYPES OF DOUBLE-LAYER GRIDS.
  • 25. •THE SPACE FRAME GRID GEOMETRY TAKES 5 GEOMETRIC OPERATIONS TO CREATED THE CORRESPONDING GRID TO ULTIMATELY CREATED A DOUBLE LAYER SPACE FRAME. •THE VERTICES ON THE GRID(GI) ARE CONNECTED TO IDENTIFY THE 3 DIMENSIONAL JOINT(3DN) AND BY CONNECTING THE 3DN THE SEMI-REGULAR IS CONSTRUCTED. LASTLY,OVERLAY ALL OF THE SYATEMS, THE STRUCTURAL MEMBERS OF THE SPACE FRAME.

Hinweis der Redaktion

  1. Given the uniform distribution of points in such a lattice, plus the equal distances between each point and its 12 nearest neighbors, Fuller called this the isotropic vector matrix (IVM) used it to think about situations with everywhere-the-same energy conditions (what "isotropic" means). The cctet truss is simply the IVM realized as an artifact for use in engineering applications. These applications range in size from the nanotechnological to the mega-structural -- or any scale in between