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Shells ppt

The document discusses different types of curved structures including single curvature, double curvature, anticlastic, synclastic, hyperboloids, and paraboloids. Single curvature structures like barrels are curved along one axis while double curvature structures like spheres cannot be flattened and are classified as synclastic or anticlastic. Hyperboloids are double curved surfaces that are convex on one side and concave on the other. Hyperbolic paraboloids are used for building roofs due to their ease of construction. Famous examples given include the Sydney Opera House and Kobe Tower in Japan.

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Fredrick Stephen raj. J 1OQ17AT019 Harshini Subramani 1OQ17AT016 Krithika 1OQ17AT026 Jashwanth 1OQ17AT020
 Single or double curvature Single curvature  Single curvature are curved on one linear axis and are a part of cylinder and cone in form of barrel vault or conoid shells. Double curvature  Double curvature are either a part of sphere or hyperboloid revolution.
  Surfaces with double curvature cannot be developed, hence known as non developable structures.  Example :-sphere , hyperbolic paraboloid  They are mainly classified as Synclastic Anticlastic  Synclastic shells :- these shells are doubly curved surfaces and have a similar curvature in each direction. Non developable structures
 Anticlastic structures are doubly curved but each of the two curves have the opposite direction to the other.  Example :- Saddle points.  Conoids, hyperbolic paraboloid and hyperboloids are all considered to the anticlastic shell because they are saddled shape with different curvature in each direction and straight lines can be drawn of the surface. Anticlastic structures
  Hyperboloids formed by rotating a straight line around a vertical axis.  Often these are tall structures such as where the hyperboloid geometry structural strength is used to support and object high off the ground , but its also used as decorative element or structural economy. Hyperboloids Kobe tower in Japan
  Hyperboloids have convex on along one side and have concave along the other side.  Cartesian co ordinates for the hyperploid can be defined , similar to spherical co ordinates keeping the azimuth angle θ € [0, 2π) but changing inflation v into hyperbolic trigonometry functions. hyperboloid
  The hyperbolic paraboloid form has been used for roofs at various times since its easily constructed using straight sections for lumber steel or other conventional materials. Hyper paraboloid structure
The geometry of HP surface can be transformed in four basic ways  By changing the slope of the directrix one can vary the curvature or twist the surface and hence change the rise to span ratio of the principle parabolas Transformation of surface
  By varying the angle between the director plane  By cutting various segments form a standard HP surface  By tilting the Z axis with respect to the plane of reference
 Hyper paraboloid structure  It is usually made up of a combination of four intersecting hyper paraboloids joint together to form a square plan.  This form of structure is often used by architects to roof large span exhibition halls and public buildings.

  Paraboloids are certain 3D dimensional structure .  Its an open surface generated by rotating a parabola  Its is the revolution of parabola along its axis of symmetry.  Example:- TWA Terminal Paraboloids
Sydney Opera House
 Sydney opera house
 Method of Construction
Shells ppt
Shells ppt
Shells ppt
Shells ppt
Shells ppt

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In this document
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Presentation by Fredrick, Harshini, Krithika, Jashwanth with specified student IDs.

Introduction to single (curvature of cylinder/cone) and double curvature (sphere/hyperboloid) surfaces.

Double curvature surfaces cannot be developed; examples include synclastic and anticlastic forms.

Explanation of anticlastic structures with opposite curvature exemplified by saddle points and hyperboloids.

Hyperboloids formed by rotating a line around an axis; used for structural strength and aesthetics.

Description of hyperboloids with convex and concave sides; includes Cartesian coordinates.

Hyperbolic paraboloids used for roofs; easily constructed with conventional materials.

Geometry of HP surfaces can be transformed by changing slope, angle, or cutting segments.

Further methods for altering hyperbolic paraboloid surfaces by tilting and varying angles.

Structures made from intersecting hyperbolic paraboloids; commonly used for large roofs.

Paraboloids are 3D structures generated from rotating a parabola; illustrated by TWA Terminal.

The Sydney Opera House as a key example of asymmetric paraboloid architecture.

Reiteration on the Sydney Opera House as a notable example in architectural design.

Coverage on methods related to the construction of the discussed structures.

Shells ppt

  • 1.
    Fredrick Stephen raj.J 1OQ17AT019 Harshini Subramani 1OQ17AT016 Krithika 1OQ17AT026 Jashwanth 1OQ17AT020
  • 2.
     Single or double curvature Singlecurvature  Single curvature are curved on one linear axis and are a part of cylinder and cone in form of barrel vault or conoid shells. Double curvature  Double curvature are either a part of sphere or hyperboloid revolution.
  • 3.
      Surfaces withdouble curvature cannot be developed, hence known as non developable structures.  Example :-sphere , hyperbolic paraboloid  They are mainly classified as Synclastic Anticlastic  Synclastic shells :- these shells are doubly curved surfaces and have a similar curvature in each direction. Non developable structures
  • 4.
     Anticlastic structuresare doubly curved but each of the two curves have the opposite direction to the other.  Example :- Saddle points.  Conoids, hyperbolic paraboloid and hyperboloids are all considered to the anticlastic shell because they are saddled shape with different curvature in each direction and straight lines can be drawn of the surface. Anticlastic structures
  • 5.
      Hyperboloids formedby rotating a straight line around a vertical axis.  Often these are tall structures such as where the hyperboloid geometry structural strength is used to support and object high off the ground , but its also used as decorative element or structural economy. Hyperboloids Kobe tower in Japan
  • 6.
      Hyperboloids haveconvex on along one side and have concave along the other side.  Cartesian co ordinates for the hyperploid can be defined , similar to spherical co ordinates keeping the azimuth angle θ € [0, 2π) but changing inflation v into hyperbolic trigonometry functions. hyperboloid
  • 7.
      The hyperbolicparaboloid form has been used for roofs at various times since its easily constructed using straight sections for lumber steel or other conventional materials. Hyper paraboloid structure
  • 8.
    The geometry ofHP surface can be transformed in four basic ways  By changing the slope of the directrix one can vary the curvature or twist the surface and hence change the rise to span ratio of the principle parabolas Transformation of surface
  • 9.
      By varyingthe angle between the director plane  By cutting various segments form a standard HP surface  By tilting the Z axis with respect to the plane of reference
  • 10.
     Hyper paraboloid structure  Itis usually made up of a combination of four intersecting hyper paraboloids joint together to form a square plan.  This form of structure is often used by architects to roof large span exhibition halls and public buildings.
  • 11.
  • 13.
      Paraboloids arecertain 3D dimensional structure .  Its an open surface generated by rotating a parabola  Its is the revolution of parabola along its axis of symmetry.  Example:- TWA Terminal Paraboloids
  • 14.
  • 15.
  • 17.