AN Learning

T BEAM BRIDGES || Design of T Bridges || solved numerical on T Bridges ||

T BEAM BRIDGES || Design of T Bridges || solved numerical on T Bridges ||
Design of circular WATERTANK RESTING ON THE GROUND

Design of circular WATERTANK RESTING ON THE GROUND
DESIGN OF WALL FOOTING || Solved Numericals on wall footing ||

DESIGN OF WALL FOOTING || Solved Numericals on wall footing ||
DESIGN OF BRIDGES || Design of Solid Slab of Briddes Or Deck Slab of Bridges || Solved Numerical ||

DESIGN OF BRIDGES || Design of Solid Slab of Briddes Or Deck Slab of Bridges || Solved Numerical ||
DESIGN OF BRIDGES || Introduction || Design Steps for Solid Slab Bridge || For Class AA Track By IRC

DESIGN OF BRIDGES || Introduction || Design Steps for Solid Slab Bridge || For Class AA Track By IRC
Design of foundation || Design of isolated footing || Solved Numericals on isolated footing ||By LSM

Design of foundation || Design of isolated footing || Solved Numericals on isolated footing ||By LSM
DESIGN OF FOUNDATION (introduction ,types of footing ,Code book provision for footing by IS456:2000)

DESIGN OF FOUNDATION (introduction ,types of footing ,Code book provision for footing by IS456:2000)
COLUMN DESIGN ||Design of Uni-Axial Column || Design Of Bi-Axial Column || Design Of Circular Column

COLUMN DESIGN ||Design of Uni-Axial Column || Design Of Bi-Axial Column || Design Of Circular Column
Analysis Of Building Frame by Approximate method ||CANTILEVER METHOD || Three Bays || Three Storey

Analysis Of Building Frame by Approximate method ||CANTILEVER METHOD || Three Bays || Three Storey
Design Of Column (introduction, types of column, code book provision by IS456:2000) solved numerical

Design Of Column (introduction, types of column, code book provision by IS456:2000) solved numerical
Multi-storeyed Building Frames || Analysis By Approximate Methods || PORTAL METOD ( Solved Problem)

Multi-storeyed Building Frames || Analysis By Approximate Methods || PORTAL METOD ( Solved Problem)
Design of stair & staircase || Solved numerical On Staircase Design with UDL Loads || part-2

Design of stair & staircase || Solved numerical On Staircase Design with UDL Loads || part-2
Design of stair & staircase || Different types of staircase || components of staircase || (part- 1)

Design of stair & staircase || Different types of staircase || components of staircase || (part- 1)
Development Length Of Bar (Ld) || DESIGN OF SECTION IN TORTION || Design For Torsion

Development Length Of Bar (Ld) || DESIGN OF SECTION IN TORTION || Design For Torsion
CURVED BEAN IN PLAN || CURVED BEAM DESIGN

CURVED BEAN IN PLAN || CURVED BEAM DESIGN
MOMENT REDISTRIBUTION METHOD IN CONTINUOUS BEAM

MOMENT REDISTRIBUTION METHOD IN CONTINUOUS BEAM
Design Of Shear Reinforcement

Design Of Shear Reinforcement
SHEAR || BOND in concrete structure & shear reinforcement

SHEAR || BOND in concrete structure & shear reinforcement
DESIGN OF TWO WAY SLAB

DESIGN OF TWO WAY SLAB
CONTINUOUS RC BEAM DESIGN (Analysis &design of RCC Continuous Beam)solved example on continuous beam

CONTINUOUS RC BEAM DESIGN (Analysis &design of RCC Continuous Beam)solved example on continuous beam
CONTINUOUS RCC BEAM (Introduction & detail study of BM& SF location in continuous beam)BY IS456:2000

CONTINUOUS RCC BEAM (Introduction & detail study of BM& SF location in continuous beam)BY IS456:2000
DESIGN OF ONE WAY SLAB ( solved example of one way slab with detailing of reinforcement & check )

DESIGN OF ONE WAY SLAB ( solved example of one way slab with detailing of reinforcement & check )
introduction & design procedure for ONE WAY SLAB & ( DIFFERENCE BETWEEN ONE WAY & TWO WAY SLAB)

introduction & design procedure for ONE WAY SLAB & ( DIFFERENCE BETWEEN ONE WAY & TWO WAY SLAB)
Intro. to CONTINUOUS BEAM(Prestressed continuous beam) design procedure, Assumption & moment diagram

Intro. to CONTINUOUS BEAM(Prestressed continuous beam) design procedure, Assumption & moment diagram
Prestressed Materials With IS Specification & Prestressed Devices, IS Specification

Prestressed Materials With IS Specification & Prestressed Devices, IS Specification
T Section Numerical (Design procedure of T- Beam) , numerical on T- Beam, flanged section/ beam

T Section Numerical (Design procedure of T- Beam) , numerical on T- Beam, flanged section/ beam
T SECTION DESIGN (definition, effective width of flange bf, Due to Position of NA 3 cases of beam)

T SECTION DESIGN (definition, effective width of flange bf, Due to Position of NA 3 cases of beam)
NUMERICAL ON PRESTRESS LOSSES IN CONCRETE(solved problem on pre-tensioning&post- tensioning member)

NUMERICAL ON PRESTRESS LOSSES IN CONCRETE(solved problem on pre-tensioning&post- tensioning member)
LOSSES IN PRESTRESSED SECTION, short term& long term losses, losses in pre & post-tensioning members

LOSSES IN PRESTRESSED SECTION, short term& long term losses, losses in pre & post-tensioning members
PRESTRESSED CONCRETE(definition, concept,Principles, advantages&disadvantages,method of prestressed)

PRESTRESSED CONCRETE(definition, concept,Principles, advantages&disadvantages,method of prestressed)