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  • BEAMS AND UNSYMMETRICAL BENDING
    • CURVED BEAMS
    • NEUTRAL AXIS FOR A RECTANGULAR SECTION
    • CURVED BEAM IN BENDING
    • EXAMPLE HOOK CALCULATION
    • BEAMS
    • DEFLECTION OF BEAMS
    • SIMPLE BENDING
    • RELATIONSHIP BETWEEN SHEAR FORCE, BENDING MOMENT AND DEFLECTION
    • METHODS FOR FINDING THE DEFLECTION
    • CANTILEVER BEAM WITH CONCENTRATED LOAD AT THE END
    • A CANTILEVER WITH UNIFORMLY DISTRIBUTED LOADS
    • SIMPLY SUPPORTED BEAM WITH UNIFORMLY DISTRIBUTED LOADS
    • CONCLUSIONS OF DEFLECTION
    • SOME OTHER CASES IN DEFLECTION
    • STRESS ANALYSIS IN CRANE HOOK
    • MATHEMATICAL CALCULATION STRESS ANALYSIS IN CRANE HOOK
    • FAILURE OF CRANE HOOK
    • SELECTION OF SHAPES OF BEAMS
    • SELECTION OF SHAPE FACTOR IN ELASTIC BENDING OF BEAM
    • SHAPE FACTORS IN ELASTIC BENDING AND TWISTING
    • LIMITS TO SHAPE FACTOR
    • Expression for crippling load when one end of the column is fixed and the other is free:
    • BEAM FAILURE CRITERIA
    • LATERAL BUCKLING
    • BEHAVIOUR OF STEEL BEAMS

  • Bending Moment And Shearing Force
    • Introduction to Bending Moment And Shearing Force
    • Shearing Force, And Bending Moment In A Straight Beam
    • Sign Conventions For Bending Moments And Shearing Forces
    • Bending Of Beams
    • Procedure For Drawing Shear Force And Bending Moment Diagram
    • SFD & BMD Of Cantelever Carrying Load At Its One End
    • SFD And BMD Of Simply Supported Beam Subjected To A Central Load
    • SFD And BMD Of A Cantilever Beam Subjected To U.D.L
    • Simply Supported Beam Subjected To U.D.L
    • Simply Supported Beam Carrying UDL & End Couples
    • Points Of Inflection
    • Theory Of Bending : Assumption And General Theory
    • Elastic Flexure Formula
    • Beams Of Composite Cross Section
    • Torsion of a thin circular tube
    • Torsion of solid circular shafts
    • Torsion of a hollow circular shaft
    • Torsion combined with thrust or tension
    • Strain energy of elastic torsion
    • Plastic torsion of a circular shaft
    • Simply-supported beam carrying a uniformly distributed load
    • Cantilever with a concentrated load
    • Cantilever with a uniformly distributed load
    • Propped cantilever with distributed load
    • Simply-supported beam carrying a concentrated lateral load
    • Macaulay’s method
    • Macaulay’s method
    • Simply-supported beam with distributed load over a portion of the span
    • Simply-supported beam with a couple applied at an intermediate point
    • Moment area method
    • Examples of Moment-Area Method

  • THICK AND THIN CYLINDERS
    • Thin Cylinder
    • Members Subjected to Axisymmetric Load
    • ANALYSIS: Pressurized thin walled cylinder
    • Longitudinal Stress: Pressurized thin walled cylinder
    • Change in Dimensions: Pressurized thin walled cylinder
    • Volumetric Strain or Change in the Internal Volume
    • Cylindrical Vessel with Hemispherical Ends
    • Thin rotating ring or cylinder
    • Stresses in thick cylinders
    • Stresses in thick cylinders
    • Representation of radial and circumferential strain
    • A thick cylinder with both external and internal pressure
    • The stress distribution within the cylinder wall
    • Methods of increasing the elastic strength of a thick cylinder by pre-stressing
    • Composite cylinders
    • Combined stress distribution in a composite cylinder
    • Multilayered or Laminated cylinder
    • Autofrettage
    • Derivation of the hoop and radial stress equations for a thickwalled circular cylinder
    • Lame line
    • Plastic deformation of thick tubes
    • Lame line for elastic zone
    • Portion of the cylinder is plastic
    • Stress in thin cylinders
    • Horizontal diametrical plane
    • Strains in thin cylinders
    • Change in Volume of Cylinder
    • Compound Cylinders
    • Press Fits
    • Analysis of Press Fits
    • Slab Base

  • Stress Strain And Energy
    • TENSILE STRESS
    • COMPRESSIVE STRESS
    • SHEAR STRESS
    • VOLUMETRIC STRESS
    • VOLUMETRIC STRAIN
    • SHEAR STRAIN
    • COMPRESSIVE STRAIN
    • TENSILE STRAIN
    • STRESS STRAIN DIAGRAM
    • THERMAL STRESS
    • POISSON RATIO
    • THREE MODULUS
    • STRAIN ENERGY
    • MODULUS OF RESSILINCE AND TOUGHNESS
    • STRAIN ENERGY IN GRADUAL AND SUDDEN LOAD
    • STRAIN ENERGY IN IMPACT LOAD
    • HOOK'S LAW
    • STRESS, STRAIN AND CHANGE IN LENGTH
    • CHANGE IN LENGTH WHEN ONE BOTH ENDS ARE FREE
    • CHANGE IN LENGTH WHEN ONE BOTH ENDS ARE FIXED
    • Composite bar in tension or compression
    • Temperature Stress In Composite Bar
    • Principal Stress And Principal Plane
    • Maximum Shear Stress
    • Theories Of Elastic Failure
    • Maximum Proncipal Stress Theory
    • Maximum Shear Stress Theory:
    • Maximum Principal Strain Theory
    • Total Strain Energy Per Unit Volume Theory
    • Maximum Shear Strain Energy Per Unit Volume Theory
    • Mohr’s Rupture Theory For Brittle Materials
    • Mohr’s Circle
    • Castigliano's first theorem
    • Castigliano’s Second Theorem

  • Column And Torsion
    • Flexural Buckling Of A Pin-Ended Strut
    • Rankine-Gordon Formula
    • Comparison Of The Rankine-Gordon And Euler Formulae
    • Effective Lengths Of Struts
    • COMPRESSIVE LOADING : BUCKLING
    • Euler’s Theory
    • Geometrical Properties of Columns
    • Effective Length of Columns
    • PERMISSIBLE STRESSES IN COMPRESSION MEMBERS
    • DESIGN OF COMPOUND COMPRESSION MEMBERS
    • Compound Columns with Lacing
    • Compound Columns with Battens
    • Grillage Base
    • Column Splice
    • FAILURE OF A COLUMN
    • End conditions for Long Columns
    • Expression for crippling load when both the ends of the Column are hinged
    • Expression for the crippling load when both ends of the column are fixed
    • Rankine’s Formula
    • DEFINITION OF SPRING
    • SPRING MANUFACTURING PROCESSES
    • LENGTH OF SPRINGS
    • CLASSIFICATION OF HELICAL SPRINGS
    • STRESSES IN THE HELICAL SPRING WIRE
    • STRESSES IN HELICAL SPRING WITH CURVATURE EFFECT
    • DEFLECTION OF HELICAL SPRING OF CIRCULAR CROSS SECTION WIRE
    • SYMBOLS USED IN HELICAL SPRING
    • DESIGN OF HELICAL SPRINGS
    • DESIGN PROCEDURE FOR HELICAL COMPRESSION SPRING
    • FOUR END TYPES OF COMPRESSION SPRINGS
    • MULTI-LEAF SPRINGS
    • SHAPE OF LEAF SPRINGS
    • DEFELECTION IN THE LEAF SPRING
    • NIPPING OF LEAF SPRINGS
    • AUTOMOBILE SUSPENSION

Branch : Mechanical Engineering | Subject : Strength Of Materials
BEAMS AND UNSYMMETRICAL BENDING
  • CURVED BEAMS

    Read topic
  • NEUTRAL AXIS FOR A RECTANGULAR SECTION

    Read topic
  • CURVED BEAM IN BENDING

    Read topic
  • EXAMPLE HOOK CALCULATION

    Read topic
  • BEAMS

    Read topic
  • DEFLECTION OF BEAMS

    Read topic
  • SIMPLE BENDING

    Read topic
  • RELATIONSHIP BETWEEN SHEAR FORCE, BENDING MOMENT AND DEFLECTION

    Read topic
  • METHODS FOR FINDING THE DEFLECTION

    Read topic
  • CANTILEVER BEAM WITH CONCENTRATED LOAD AT THE END

    Read topic
  • A CANTILEVER WITH UNIFORMLY DISTRIBUTED LOADS

    Read topic
  • SIMPLY SUPPORTED BEAM WITH UNIFORMLY DISTRIBUTED LOADS

    Read topic
  • CONCLUSIONS OF DEFLECTION

    Read topic
  • SOME OTHER CASES IN DEFLECTION

    Read topic
  • STRESS ANALYSIS IN CRANE HOOK

    Read topic
  • MATHEMATICAL CALCULATION STRESS ANALYSIS IN CRANE HOOK

    Read topic
  • FAILURE OF CRANE HOOK

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  • SELECTION OF SHAPES OF BEAMS

    Read topic
  • SELECTION OF SHAPE FACTOR IN ELASTIC BENDING OF BEAM

    Read topic
  • SHAPE FACTORS IN ELASTIC BENDING AND TWISTING

    Read topic
  • LIMITS TO SHAPE FACTOR

    Read topic
  • Expression for crippling load when one end of the column is fixed and the other is free:

    Read topic
  • BEAM FAILURE CRITERIA

    Read topic
  • LATERAL BUCKLING

    Read topic
  • BEHAVIOUR OF STEEL BEAMS

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