1 ACM-2015

TEACHING SCHEME FOR B.TECH (CIVIL ENGINEERING ) SEMESTER III

Sem

Subject Code

Name of Subject

Teaching Scheme Credit Examination Scheme Hrs.

L T P

Total

L&T P

Total

Theory Practical Ass.

Grand Total

Int. Asses

Sem End

Hrs Total

III

2CI302 Mechanics of Structures 3 0 2 5 3 1 4 40 60 3 100 50 150 2CI303 Construction Materials &

Engg. Geology 2 0 2 4 2 1 3 40 60 3 100 50 150

2CI304 Building Planning Design 3 0 2 5 3 1 4 40 60 3 100 50 150

2CI305 Fluid Mechanics -I 3 0 2 5 3 1 4 40 60 3 100 50 150 2CI306 Numerical Analysis and

Computer Programming. 3 0 2 5 3 1 4 40 60 3 100 50 150

2HS305 Mathematics for Civil Engineering 3 0 0 3 3 0 3 40 60 3 100 0 100

AU01to 15 Audit Course* 2 0 0 2 0 0 0 - - - - - - TOTAL 19 0 10 29 17 5 22 240 360 600 250 850

Note: * Audit Course is offering as per circular 01/2015 (F.No.268/GNU/Circular/Audit Course/03/2015). TEACHING SCHEME FOR B.TECH (CIVIL ENGINEERING) SEME STER IV

Sem

Subject Code

Name of Subject

Teaching Scheme Credit Examination Scheme Hrs.

L T P

Total

L&T P

Total

Theory Practical

Ass. Grand Total

Int. Asses

Sem End

Hrs Total

IV

2CI401 Structural Analysis - I 3 0 2 5 3 1 4 40 60 3 100 50 150 2CI402 Surveying 3 0 2 5 3 1 4 40 60 3 100 50 150 2CI403 Building Construction 3 0 2 5 3 1 4 40 60 3 100 50 150 2CI404 Basic Transportation

Systems 2 0 0 2 2 0 2 40 60 3 100 0 100

2CI405 Fluid Mechanics -II 3 0 2 5 3 1 4 40 60 3 100 50 150 2CI406 Concrete Technology 3 0 2 5 3 1 4 40 60 3 100 50 150

AU01to 15 Audit Course 2 0 0 2 0 0 0 - - - - - - TOTAL 19 0 10 29 17 5 22 240 360 600 250 850

Note: * Audit Course is offering as per circular 01/2015 (F.No.268/GNU/Circular/Audit Course/03/2015).

2 ACM-2015

2CI302 Mechanics of Structures [3 0 2 3 1]

LEARNING OUTCOME

By learning this course student should be able to understand Basics of engineering Properties and

different materials. They also get knowledge of different types of stress like bending stress shear

stress under different loading condition. They are also able to understand behavior of compression

member (column and strut).

COURSE CONTENT: HRS

UNIT I STRESSES & STRAINS

Elastic, homogeneous, isotropic materials, limit of elasticity and proportionality, yield limit,

ultimate strength, strain hardening, section of composite materials, prismatic and non-

prismatic sections. Strains: Linear, shear, lateral, thermal and volumetric, Poisson’s ratio.

Stresses: Normal stresses axial- tensile and compressive, shear and complementary shear,

thermal and hoop. Applications to composite material stepped and tapered bars.

6

UNIT II BENDING MOMENT AND SHEAR FORCES IN BEAMS

Bending moment and shear forces, Bending moment and shear force diagrams for statically

determinate beams subjected to couples, connected forces, uniformly distributed loading,

relation between bending moment, shear force and rate of loading, point of contra flexure.

6

UNIT III BENDING STRESSES IN BEAMS

Introduction, simple bending, theory of simple bending, moment of resistance, modulus of

section, beam of uniform section, composite section, laminated spring

4

UNIT IV SHEARING STRESSES IN BEAMS

Introduction, shear stress distribution for beam of rectangular, circular, triangle and I- section.

4

UNIT V PRINCIPAL STRESSES AND STRAINS

Principal planes, principle stresses, Analytical method for principal stress, Mohr’s circle of

stress and strain, Theories of failure.

5

UNIT VI TORSION:

Basic assumption, Torsion formula, Design of circular sections, Angle of twist, Shearing

stress, Deformation, power transmitted by shaft

2

UNIT VII COLUMNS AND STRUTS

Short column subjected axial forces and bending moments, engineering problems, long

columns, stability and equilibrium, ranking formula, Indian standard formula, criteria for

design of columns

4

UNIT VIII DIRECT AND BENDING STRESSES:

Members subjected to eccentric loads, middle third rule, and kernel of section, chimney

subjected to wind pressure, retaining walls and dams subjected to hydraulic pressure

3

3 ACM-2015

UNIT IX ANALYSIS OF PERFECT FRAME:

Types of frames, Assumptions for forces in the members of a perfect frames, Analytical

methods for forces, Method of joints, Method of sections(Moments), Force table, Cantilever

trusses, Structures with one end hinged and other freely supported on rollers and carrying

horizontal loads, Miscellaneous structures

5

PRACTICAL WORK

The practical work shall be based on experimental and analytical work on the topics mentioned above and

will be defended by the candidates.

TEXT BOOKS:

I S. B. Junnarkar and H.J. Shah, Mechanics of structure vol-I ,Charotar publishing house, Anand

II S Ramamrutham , Strength of Materials , Dhanpat Rai & Sons.

REFERENCE BOOKS:

I R. S. Khurmi , Strength of Materials ,S. Chand & Co. New Delhi

II M. Chakraborti, Strength of Materials, S. K. Kataria & Sons.

III E. P. Popove, Engineering Mechanics Of Solids ,PHI Publication

IV Gere & Timoshenko, Mechanics Of Materials , CBS Publisher.

4 ACM-2015

2CI303 Construction Materials and Engineering Geology [2 0 2 2 1]

LEARNING OUTCOME:

The main objective of this course is to make the students aware of basic construction materials and

engineering geology. Get acquainted with construction materials .The students will be knowledgeable of

contemporary issues relevant to construction materials & able to select appropriate materials for design and

construction. The course helps to increase the student’s knowledge and understanding of geology, by applying

this knowledge to engineering projects such as landfills, dam, rock quarries, roads, slopes, tunnels and other

engineering structures.

COURSE CONTENT: HRS

CONSTRUCTION MATERIALS

UNIT I Types of building stones and bricks, I.S. specification for bricks, bricks manufacturing process, tiles,

stone ware pipes and terra cotta production.

3

UNIT II Types of limes, and cements, and their usages, mortars, plaster of Paris, geotextile, betonies, and

introduction to Advance Material.

4

UNIT III Timber usages in buildings, main varieties of timber, main defects, preservation of timber, allied

products, ply-wood, veneers, particle boards.

3

UNIT IV Miscellaneous building materials, iron and structural steel, aluminum, glass, plastics, asphalts,

varnishes, distempers, paints and cement paints.

3

ENGINEERING GEOLOGY

UNIT V SCOPE OF GEOLOGY IN CIVIL ENGG.

Development of Engineering Geology, geological formation in India, geological processes.

3

UNIT VI MINERALS AND ROCKS:

Physical properties, types and identification,

4

UNIT VII DIFFERENT GEOLOGICAL STRUCTURES:

Folds, faults, joints, dip and strike relation, geological investigation approaches

3

UNIT VIII GEOLOGICAL CONSIDERATIONS:

Tunnels, dams, reservoirs, roads, buildings and bridges, earthquake zone and seismic hazards.

3

TEXT BOOKS:

I Rangwala S. C., “Engineering Materials “, Charotar Book Stall, Anand.

II Parbinsingh “ Engineering and General Geology ”, Katson Publishing House

REFERENCE BOOKS:

I Technical Teachers Training Institute, “ Civil Engineering Materials “, Chandigarh

II Gosh D. N., “ Materials Of Construction “, Tata Mcgraw Hill Publication, New Delhi.

III P. K. Mukerjee , Text Book of Geology , World Press Publisher.

IV V Reddy, Engineering Geology For Civil Engineers.; Oxford & Ibh, 1997, New Delhi

5 ACM-2015

V F.G.H Blyth, and M.H de Freitas, Geology for Engineers., ELBS, 1974 London

VI C Kesavulu, Textbook of Engineering Geology , Macmillan, India Ltd., 1993, New Delhi

VII Gupta R. B.,” Text book of Engineering Geology “, Vidhyarthi Gruh Prakashan, Pune.

VIII Arora D. S., “ Geology for Engineers “, Mohindra Capital Publishers, Chandigarh

IX Maclean A. C. & O. D. Gribble, “Geology for Civil Engineers “, George Allen & Onwin Publication.

6 ACM-2015

2CI304 Building Planning Design [3 0 2 3 1]

LEARNING OUTCOME :

By learning the subject students will be able to understand important of drawing. This course has been designed in such a way that a student can produce more detailed drawing related to construction of single storied , double storied residential buildings, public buildings and other simple civil engineering structures and in this subject also consider the application of building regulation and by-laws as per local authorities.

COURSE CONTENT: HRS

BUILDING PLANNING

UNIT I Study of general principles of Planning and Architecture. 3

UNIT II Typical Building Byelaws as per National Building Code and General Development Control

Regulation

6

UNIT III Planning of residential buildings, Public buildings and Multi-storied structure. 10

UNIT IV Planning of Earthquake resistant buildings considering symmetry, simplicity, continuity, staircase,

water tank etc.

5

UNIT V Preparing Working Drawings of Residential Buildings. Various types, Scale selection, Material

description.

4

UNIT VI Elements of Perspective Drawing-basic terms, One point and Two point Perspective. 6

BUILDING DRAWING:

UNIT VII Drawing scales, different drawings, presentation drawings, drawing parallel and oblique

perspective views, working drawings, staircase detailing and drawing, foundation layouts,

landscape and other sketches.

5

PRACTICALS / DRAWING / STUDIO :

1. Assignment on planning of residential building

(a)Bungalow ,(b) Duplex, (c) Apartment & (d) Row House

2. Assignment on planning of public building

TEXT BOOKS:

I S.C.Rangwala, Building Planning & Drawing , Charotar Publication.

REFERENCE BOOKS:

I Shah M. G., Kale C. M., and S. Y. Patki, “ Building Drawing “, Tata Mc-Graw Hill Pub. Co. Ltd, New

Delhi.

II Sane Y. S., “ Planning & Designing of Building “, Allies Book Stall, Puna

III “General Development Control Regulations”, Urban Development Authority.

IV Ernest Pickering, “ Architectural Design”, John Wiley & Sons

V Gurcharansingh , Building planning, designing and scheduling

VII National Building Code-2005, New Delhi.

VIII General Development Control Regulations published by AUDA and GICEA

7 ACM-2015

2CI305 Fluid Mechanics – I [3 0 2 3 1]

LEARNING OUTCOME:

Fluid mechanics is the study of the effects of forces and energy on liquids and gases. Like other branches of

classical mechanics, the subject subdivides into statics (often called hydrostatics) and dynamics (fluid

dynamics, Hydrodynamics, or aerodynamics). Hydrostatics is a comparatively elementary subject with a few

classical results of importance but little scope for further development. Fluid dynamics, in contrast, is a highly

developed branch of science that has been the subject of continuous and expanding research activity.

COURSE CONTENT: HRS

UNIT I PROPERTIES OF FLUIDS:

Specific weight, mass density, specific gravity, viscosity, Newton’s law of viscosity, surface tension,

capillary, cohesion and adhesion.

5

UNIT II HYDROSTATICS:

Pressure and its measurement, fluid pressure at a point, Pascal’s law, pressure and its relation with

height, atmospheric, absolute, gauge and negative pressure, measurement of pressure through piezo-

meter and various types of monometer.

Total pressure, intensity of pressure, centre of pressure. Pressure on horizontal, vertical, inclined and

curved surface. Buoyancy, centre at Buoyancy, Meta centre and Meta centre height. Condition of

equilibrium of floating and submerged body. Experimental and analytical method to determine

Meta-centric height.

10

UNIT III HYDRO-KINEMATICS AND DYNAMICS: Types of fluid flow, continuity Equation, Euler’s

Equation of motion, Bernoulli’s equation of motion. Practical application of Bernoulli’s Equation.

(Venturimeter, orifice meter, Pitot tube).

2

UNIT IV MEASUREMENT OF FLOW:

Orifice & Mouth piece

Classification, hydraulic coefficients, experimental determination of hydraulic coefficient Discharge

through all types of orifice & mouthpiece, time of emptying the tank through orifice and mouthpiece.

Notches and Weirs

Classification, discharge through various types of Notches and Weirs. Time of emptying a Reservoir

or a Tank with notches & weirs.

14

UNIT V FLOW THROUGH PIPES: Introduction, Loss of energy in pipe, major and minor losses of energy

in pipes, hydraulic gradient, total energy line, pipes in series, pipes in parallel, flow through branched

pipes, and hydraulic transmission of power.

8

TERM WORK

I Term work shall consist of tests on cement and aggregate, fresh concrete and hardened concrete. It

includes destructive, partial destructive and non- destructive tests.

II Term work shall include report on topic assigned by respective lab in-charge.

III Term work shall include field visit and students will have to submit a report

8 ACM-2015

IV Oral/Practical marks include viva-voce on practical performed and submitted reports.

TEXT BOOKS:

I Dr.R.K.Bansal , Fluid mechanics & Hydraulic Machines, Laxmi Publication.

REFERENCE BOOKS:

I Dr..D.S.Kumar ,Fluid mechanics, S.K.Kataria Sons

II Dr.P.N.Modi & Sheth , Fluid mechanics & Hydraulic Machines, Standard Publication

III Dr.A.K.Jain, Fluid mechanics,Khanna Publication

IV R.J.Garde & A.C.Mirajgaoker , Engineering Fluid Mechanic, New Age International Publication Pvt

Ltd.

V V.L Streeter,. and E.B Wylie ,Fluid Mechanics , McGraw Hill, 1985, New York

VI K Subramanya , Theory and Applications of Fluid Mechanics, Tata-McGraw Hill Publishing Co, 1993,

New Delhi.

VII I, I.M Katz,. and J.P Schaffer, ntroduction to Fluid Mechanics E.J Shaughnessy,. SI edition, 2005,

Oxford University Press, New Delhi

VIII F.M., White, Fluid Mechanics, 5th Edition, McGraw Hill, New York.

9 ACM-2015

2CI306 NUMARICAL ANALYSIS & COMPUTER PROGRAMMING [3 0 2 3 1]

LEARNING OUTCOMES :

By learning this course student should be able to understand, the various mathematical methods which

are beneficial for calculation of volume in site work and also used for mathematical modelling.in

computer programming they can understand knowledge of basic c++ language.

COURSE CONTENT: HRS

NUMERICAL ANALYSIS

UNIT I SOLVING NONLINEAR EQUATIONS

Interval Halving Revisited, Linear Interpolation Method, Newton’s Method, Muller’s Method,

Newton’s Method for polynomial.

4

UNIT II SOLVING SETS OF EQUATIONS

Matrix notation, the elimination method, gauss & gauss-jordan methods, Iterative method, system of

nonlinear equation.

4

UNIT III INTERPOLATION AND CURVE FITTING

Lagrangian polynomials, Divided difference, Least-Squares approximation.

4

UNIT IV NUMERICAL DIFFERENTIATION AND NUMERICAL INTEGRATION

Getting derivatives and integrals numerically, Derivatives from difference table, higher order

derivatives, extrapolation techniques, Newton-Cotes integration formulas, the trapezoidal rule,

simpson’s rules

6

UNIT V NUMERICAL SOLUTION OF ORDINARY DIFFERENTIAL EQUATIO NS

The Taylor-Series method, Euler and modified Euler method, runge-kutta method, multistep

method, milne’s method, convergence criteria, error and error propagation, systems of equation and

higher order equation, comparison of method/stiff equation

8

OBJECT ORIENTED PROGRAMMING

UNIT VI PRINCIPLES OF OBJECT ORIENTED PROGRAMMING

Paradigm, Basic Concept, Benefits of OOP, Application of OOP, Structure of C++ program, scope

resolution operator

7

UNIT VII FUNCTION IN C++

The main function, call by reference, return by reference, inline function, default argument, const

arguments, function overloading

6

PRACTICAL WORK: -

The practical work shall be based on and analytical work on the topics mentioned above and will be defended by

the candidates.

TEXT BOOKS:

I E Balaguruswami , Object Oriented Programming with C++,McGraw Hill Education (India) Private

Limited

II E. Balagurusamy, Numerical Method, McGraw Hill Education (India) Private Limited.

10 ACM-2015

REFERENCE BOOKS:

I Schmidt, Teach Your Self C++ , Sams Publishing

II Lafore Robert,. Object Oriented Programming in Turbo C++, Sams Publishing

III Curtis F. Gerald, Patrick O.Wheatley, Applied Numerical Analysis, Pearson

IV C Xavier, C language and Numerical Method , New Age International

V V.Rajaraman, Computer Oriented Numerical Methods, PHI Learning.

VI R.S. Salania, Computer oriented numerical methods, Khanna book company, new Delhi.

VII S.S.Sastry ,Introductory methods of Numerical Analysis - Prentice Hall Publication

11 ACM-2015

2HS305 Mathematics for Civil Engineering [3 0 0 3 0]

LEARNING OUTCOMES:

After successful completion of the course, student will be able to

• Express physical phenomenon in mathematical formulation

• Understand and solve Ordinary & Partial differential equations

• Basic knowledge of widely used Fourier transform techniques and their applications in Civil Engineering

COURSE CONTENT: HRS

UNIT I LAPLACE TRANSFORMS:

Definition, Laplace transform of elementary functions, Properties of Laplace transform,

Inverse Laplace transform, transform of derivatives, Transform of integration, Multiplication

by tn , Division by t, Convolution theorem, Unit step and Heaviside’s unit function, direct-

delta function, periodic functions, Solution of ordinary linear differential equations,

Simultaneous equation with constant co-efficient applied to electrical circuits.

09

UNIT II FOURIER SERIES:

Definition of periodic function, Euler’s formula, Functions having points of discontinuity,

Change of intervals, Odd and Even functions, Expansion of odd or even periodic functions,

Half range sine and cosine series, Elements of harmonic analysis.

08

UNIT III ORDINARY DIFFERENTIAL EQUATION (Higher Order) :

Ordinary differential equation with constant coefficient, Variation of parameter methods,

Cauchy – Euler differential equations, Simultaneous differential equations with constant

coefficient, Applications of ordinary differential equation.

09

UNIT IV PARTIAL DIFFERENTIAL EQUATION:

Formation of partial differential equations, LaGrange’s first order partial differential

equations, Directly integral equations, Method of separable of variables, Application to wave

equations, Diffusion equation and Laplace equation.

08

UNIT V Statistics: Total probability, independent events, Theorem of compound probability, Baye’s theorem

random variable, Discrete probability distribution, Continuous probability distribution

expectation, Moment generating function, Repeated trials, Binomial Poisson’s and normal

distribution applications, Calculation of errors, probable errors, standard error

04

TEXT BOOKS:

I B.S.Grewal ,Higher engineering mathematics, Khanna Publishers.

II M.D.Raisinghania ,Textbook of Ordinary and Partial Differential Equations, S.Chand.

REFERENCE BOOKS:

I Srivastava ,Engineering mathematics. PHI Learning Pvt. Ltd.

II A.B.Mathur and V.P.Jaggi. ,Textbook of engineering mathematics ,Khanna Publishers

III Erwin Kreyzing ,Advanced engineering mathematics , John Wiley & Sons.

12 ACM-2015

2CI401 Structural Analysis –I [3 0 2 3 1]

LEARNING OUTCOME:

After completion of this subject students are able to understand the behavior like displacement and

deformation of structural member under various loading. Students can get knowledge of behavior of

structural member under moving load on it. They also get knowledge of curved structure.

COURSE CONTENT: HRS

UNIT I SLOPE AND DEFLECTION OF BEAMS:

Differential equation of elastic curve, relation between moments, slope and deflection, double

integration method Macaulay’s method, moment area method & conjugate beam method applied to

beams including varying moment of inertia. Slope and Deflection of all types of beams , Analysis of

simple portal frame with sway.

9

UNIT II CONSISTENT DEFORMATION METHOD: Analysis of propped cantilever beams, rigid and

elastic supports, beams of varying moment of inertia.

4

UNIT III FIXED BEAMS:

Computation of fixed-end actions for point load, u.d.l. varying load and couples, settlement and

rotation of supports, beams of varying moment of inertia.

6

UNIT IV CURVED STRUCTURES :

Analysis of three hinged arches, segmental and parabolic shapes forces & end actions in cables.

4

UNIT V SHEAR CENTRE

Introduction, Shear centre of channel section, Shear centre of different sections.

4

UNIT VI INFLUENCE LINES FOR BEAMS

Definition and use of influence lines for support reaction, shear force and bending moment of

statically determinate beams, influence lines for girders with floor system, properties of influence

lines, computation of maximum moment and maximum shear for a series of concentrated loads and

uniformly loads for beams, load positions and computation of max. Values, absolute maximum shear,

bending moments and axial force.

(Muller-Breslau's principle, Influence Line Diagrams for reaction and internal forces in propped

cantilever and continuous beams having one static indeterminacy, qualitative ILD for statically

indeterminate structures such as beams & frames)

9

UNIT VII SPACE TRUSS: Classification of 2-D and 3-D truss, analysis of simple ball-socket jointed three

dimensional statically determinate space trusses by tension-coefficient method.

3

TERM WORK

This will consist of graphical and/or analytical solutions of at least problems based on the syllabus of structural

analysis.

TEXT BOOKS:

I S. B. Junnarkar and H.J. Shah, Mechanics of structure vol-I ,Charotar publishing house, Anand.

II S Ramamrutham , Strength of Materials , Dhanpat Rai & Sons.

13 ACM-2015

REFERENCE BOOKS:

I Wang C.K., Intermediate Structural Analysis, Tata McGraw Hill book Company, New Delhi

II E.P.Popov ,Mechanics of Materials ,Prentice Hall of India, New Delhi

III G.H.Ryder.,Strength of materials, Mcmillan Publication.

IV Timoshenko & Gere ,Mechanics of Materials, CBS Publishers & Distributors, Delhi

V P. Dayaratnam , Analysis of Statically Determinate Structures –Affiliated east and West Press Pvt. Ltd.,

New Delhi

VI C.S. Reddy , Basic Structural Analysis - Tata Mc Graw Hill Pub. Co. Ltd. New Delhi.

VII Hibbler R C; Mechanics of Materials; Pearson

VIII Hibbler R C; Structural Analysis; Pearson

14 ACM-2015

2CI402 Surveying [3 0 2 3 1]

LEARNING OUTCOME:

After Completion of the Curriculum of basic surveying students can understand the basic fundamentals about

areas and volumes and also they will have the knowledge about various levelling methods. They can know how

the surveying work is going on actually on the field. they are familiar with the different types of basic survey

instruments in the laboratory which will be used in actual survey work.

COURSE CONTENT: HRS

UNIT I PLANE TABLE SURVEY:

Plane table and accessories, plane table techniques, two point and three point problems, error in plane

tabling, advantages and disadvantages of plane tabling. 5

UNIT II LEVELLING:

Definition, Calculation of RL , Methods of levelling, setting out levels, Curvature and Refraction,

Distance to visible horizon, Contour, Temporary adjustment of level profile of ground, cross section

of ground, applications of levelling in sewer line, road alignment, precise levelling, levelling errors.

7

UNIT III COMPUTATION OF AREAS AND VOLUMES:

Areas from field measurements and plans, different methods, Trapezoidal and Simpson's rule,

Plannimeter.

Volume by trapezoidal and Prismoidal formula, calculation of earthwork in cutting and embankment

for civil engineering works, mass haul diagram, volume by spot levels, capacity of reservoir.

6

UNIT IV THEODOLITE SURVEY:

Introduction, types of theodolite, temporary relation between fundamental axis of theodolite,

adjustment of theodolite, field operations with theodolite, theodolite traversing, latitude and

departure, Gale's traverse table, omitted measurements in theodolite traversing, errors in theodolite

traversing

9

UNIT V CURVE SURVEYING:

Introduction, classification of curves, simple, compound and transition curves, methods of setting the

curves, vertical curves.

5

UNIT VI CONSTRUCTION SURVEYS:

Introduction, setting out buildings, pipe lines and sewers, roads, bridges, piers. 4

UNIT VII HYDROGRAPHIC SURVEYS:

Introduction, controls in hydrographic surveying, shore line survey, soundings, reduction in

soundings, methods of locating and plotting of soundings.

3

REFERENCE BOOKS:

I Dr. B.C. Punamia, Surveying Vol.I, II and III , Laxmi Publications Pvt Limited.

REFERENCE BOOKS:

I Dr. K. R. Arora, " Surveying and Levelling, Vol. I & II ", StandardPublications

II Kanitkar & Kulkarni, " Surveying and Levelling, Vol. I & II ", Vidyarthi Gruh Prakashan.

15 ACM-2015

III K. S. Duggal," Surveying and Levelling, Vol. I & II", TMH Edition.

IV N.N. Basak ,Surveying and Levelling ,Tata McGraw-Hill Education

V R. Agor ,Surveying and Levelling, Khanna publishers

VI R. Agor ,Advanced Surveying , Khanna publishers

VII Roy, S.K., Fundamentals of Surveying, Prentice Hall India, New Delhi

VIII Subramanian, R., Surveying and Leveling, Oxford University Press, New Delhi

16 ACM-2015

2CI403 Building Construction [3 0 2 3 1]

LEARNING OUTCOME:

After Completion of the Curriculum of building construction. Students can understand the basic

concepts of construction of projects and different technical terms which are used in building site. They

understand types of foundation, techniques of site exploration, stairs, flooring, ventilation.

COURSE CONTENT: HRS

UNIT I INTRODUCTION:

Overview of construction practices, theory and methods

2

UNIT II SUBSURFACE INVESTIGATION:

Objectives, methods of boring like wash boring, percussion etc.

2

UNIT III SHALLOW FOUNDATIONS:

Necessity, types, Setting out, excavation, construction, failures of foundation and remedial

measures.

5

UNIT IV MASONRY CONSTRUCTION:

Stone masonry: Technical terms, lifting appliances, joints, types - random (un-coursed) rubble,

coursed rubble, dry rubble masonry, Ashlars masonry- Ashlars fine, chamfered fine.

Brick masonry: Technical terms, bonds in brick work- English bond, single & double Flemish

bond, garden wall bond, raking bond, Dutch bond.

Composite masonry: Stone facing with brick backing, brick facing with concrete backing. Hollow

concrete blocks and construction

Cavity walls: Brick cavity walls, position of cavity at foundation, roof and at opening levels.

Lintels & arches: Lintels - types, construction. Arches - technical terms, types - brick arches,

rough, axed, stone arches, flat – semi-circular.

7

UNIT V PLAIN AND REINFORCED CONCRETE CONSTRUCTION:

Pre-cast and cast-in-situ construction

3

UNIT VI DOORS AND WINDOWS:

Doors: Location, technical terms, size, types, construction, suitability.

Windows: Factors affecting selection of size, shape, location and no. of windows, types,

construction, suitability, fixtures and fastenings.

Ventilators: Ventilators combined with window, fan light.

5

UNIT VII STAIRS AND STAIRCASES:

Definition, technical terms, requirements of good stair, fixing of going and rise of a step, types of

steps, classification, example - stair planning, elevators, escalators.

3

UNIT VIII FLOORINGS:

Introduction, essential requirements of a floor, factors affecting selection of flooring material,

types of ground floors, brick, flag stone, tiled cement- concrete, granolithic, terrazzo, marble,

timber flooring, upper floor- timber, timber floor supported on RSJ flag stone floor resting on RSJ,

3

17 ACM-2015

jack arch floor, reinforced concrete floor, ribbed floor, pre-cast concrete floor.

UNIT IX ROOFS AND ROOF COVERINGS:

Introduction, requirements of good roof technical terms, classification, types of roof coverings for

pitched roof. A.C. sheet roofs - fixing of A.C. sheets, laying of big six sheets, G.I. Sheets roofs,

slates, flat roof - advantages, dis-advantages, types of flat terraced roofing.

3

UNIT X WALL FINISHES:

Plastering, pointing and painting.

2

UNIT XI TEMPORARY WORKS:

Timbering in trenches , types of scaffoldings, shoring, underpinning

2

UNIT XII SPECIAL TREATMENTS:

Fire resistant, water resistant, thermal insulation, acoustical construction and anti-termite

treatment

2

TERM WORK

Term work shall be based on the above mentioned course content.

FIELD VISIT

Field visits based on course content are suggested

TEXT BOOKS:

I S. C. Rangwala ,Building Construction, Charotar Publishing House

II Dr. B. C. Punamia ,Building Construction, Laxmi Publications Pvt Limited

REFERENCE BOOKS:

I Sushil Kumar ,Building Construction , Standard Publisher.

II Gurcharan Singh ,Building Construction Standard Book House-New Delhi

II P.C Varghese ,Building Construction ,Prentice-Hall of India, New Delhi

III Indian Standard Institution, National Building Code of India, ISI, 1984, New Delhi

18 ACM-2015

2CI404 Basic Transportation Systems [2 0 0 2 0]

LEARNING OUTCOME:

After the completion of the curriculum of Basic Transportation system students can learn role of transportation in

society. Different types of modes, planning and co-ordination of different modes. In Railway engineering students

will learn about rails, its Geometric design, Transition curves, Points & crossing, yards. In airport engineering

students will learn various components of Airport, its planning as well as design. In water Transportation students

will learn layout of Harbours & Port facilities.

COURSE CONTENT: HRS

UNIT I Introduction :

Role of transportation in society, Objectives of transportation system, different types of modes,

planning & Co-ordination of different modes for Indian conditions

2

UNIT II Railway Engineering

Merits of rail transportation, railway gauges and gauge problems.

Cross section of permanent way and track components. Sleepers-function and types, sleeper density,

ballast functions and different ballast materials.

Rails: Coning of wheels and tilting of rails, rail cross sections, wear and creep of rails, rail fasting.

Geometric design: Gradients, Transition curves, Widening of gauges on curves, Cant and Cant

deficiency.

Point and crossing: Design of Turnouts and description of track junctions.

Yards: Details of different types of railway yards and their functions.

Signaling and interlocking: classification of signals, interlocking of signals and points control of train

movements. Construction and maintenance of railway track, methods of construction, material

requirements, special measures for high speed track, maintenance of tracks and traffic operations.

16

UNIT III Airport Engineering:

1. Aircraft characteristics and their influence on airport planning.

2. Airport planning: Topographical and geographical features, air traffic characteristics and

development of new airports, factors affecting airport site selection.

3. Airport obstruction: Zoning laws, classification of obstruction, imaginary surfaces, approach zones,

turning zones.

4. Airport layout: runway orientation, wind rose diagrams, and basic runway length. Correction of

runways length, airport classification, geometric design, airport capacity, location of terminal

buildings, aircraft hangers and parking.

5. Airport marking and lighting: marking and lighting of runways, taxiways and approach areas.

6. Terminal area and airport layout: Terminal area, planning of terminal building, Apron size of the

gate position, number of gate position, aircraft parking system: Hanger: general planning

considerations, blast considerations.

7. Air traffic control: Air traffic control aids, Enroute aids, landing aids.

16

19 ACM-2015

8. Airport Drainage: requirement of airport drainage, design data, surface drainage design, subsurface

drainage design.

UNIT IV Water Transportation

1. Harbors: Selection of site, entrance and channel requirement, ship characteristics and their influence

on ports management and operations, harbor maintenance.

2. Harbor layout: harbor works, break waters, jetties, wharves, piers, berthing facilities, types and

construction dolphins.

3. Navigational aids: buoys and lighthouses etc.

4. Port facilities: docks, transit sheds and warehouses, general layout, containers and container yard,

5

TEXT BOOKS:

I Saxsena S C and Arora S P A course of railway engineering. Dhanpat Rai and sons, New Delhi.

II Khanna and Arora, Airport planning & design, Nemchad Bros, Roorkee

III Bindra S P Docks & Harbour engineering, Dhanpat Rai and sons

REFERENCE BOOKS:

I Agrawal M M (1991). Indian Railway Track, Sachdeva Press, Mayapuri, New Delhi

II R Shirinivasan, Harbour dock and tunnel engineering

III Rao G V , Airport engineering, Tata McGraw Hill

IV Horonjeff & Mcklerey, planning & design of airports

V Quinn A D, Design and construction of ports and marine structures

20 ACM-2015

2CI405 Fluid Mechanics – II [3 0 2 3 1]

LEARNING OUTCOME:

After study of this syllabus, students can understand the kinematics and dynamics of fluids, Viscous and

Turbulent flow, design of pipe network. They can plan and design of water supply systems and basic

considerations on which the designs of the various hydraulic and hydrological structures.

COURSE CONTENT: HRS

UNIT I Introduction: Different Types of fluid and its thermodynamic properties, continuity equation in

Cartesian coordinates.

3

UNIT II VISCOUS FLOW: Flow of viscous fluid through circular pipe and two parallel plates, loss of head

due to friction in viscous flow, methods of determination of coefficient of viscosity (capillary tube

method, orifice type, falling sphere Resistance method, rotating cylinder method), network of pipes

(Hardy-cross method)

8

UNIT III TURBULENT FLOW :Reynolds’s experiments, friction loss in pipe flow, velocity distribution in

turbulent flow in pipe, shear stress in turbulent flow, Nikuradse work on artificially rough pipe, Cole

brooks and white equations : Moody’s diagram.

8

UNIT IV BOUNDARY LAYER FLOW: Definitions, growth, thicknesses, drag forces, laminar and turbulent

boundary layer on a flat plate, and separation of boundary layer.

4

UNIT V Dimensional and Model Analysis: Concept of dimensions and dimensional homogeneity

dimensionless parameters, methods of dimensional analysis, model analysis, types of similarities,

types of forces acting on moving fluid, dimensionless numbers, model laws, classification of model.

6

UNIT VI OPEN CHANNELS: Classification of flow in channel, velocity distribution, discharge through open

channel, most economical section, specific energy and specific energy curve, critical flow, standing

wave flume and parshall flume, gradually varied flow, hydraulic jump and its application.

10

TERM WORK

Term work shall be based on the above mentioned course content.

TEXT BOOKS:

I Dr.P.N.Modi & Sheth ,Fluid mechanics & Hydraulic Machines

FIELD VISIT

Field visits based on course content are suggested.

REFERENCE BOOKS:

I Dr.R.K.Bansal ,Fluid mechanics & Hydraulic Machines

II Dr.D.S.Kumar ,Fluid mechanics

III Dr.A.K.Jain ,Fluid mechanics

IV S.Ramamurthan ,Hydraulic Fluid mechanics & Fluid Machines

V R.J.Garde & A.C.Mirajgaoker ,Engineering Fluid Mechanic

21 ACM-2015

2CI406 Concrete Technology [3 0 2 3 1]

LEARNING OUTCOME :

Concrete Technology subject is learned to provide basic idea of concrete ingredients. As we know the

concrete is very highly vulnerable material for construction. So the knowledge of concrete is required

to become a good civil engineer. The subtopics of concrete like properties, mix design, adverse effects

on it, repair and rehabilitation techniques etc are very useful contents to become sound in this area.

COURSE CONTENT: HRS

UNIT I GENERAL : Historical background, composition of concrete, general note on strength mechanism,

current practice and future trends.

1

UNIT II INGREDIENTS OF CONCRETE

Cement- Chemical composition, hydration, heat of hydration, hydrated structure, various types of

cement, testing of cement as per Indian standard.

Aggregates-Function in concrete, classification, effect of geometry & texture, strength, mechanical

properties, moisture content, water absorption, bulking of sand, deleterious substances, sieve

analysis, various grading and grading requirements, sampling & testing as per Indian Standards.

Water- General Requirements & limiting values of impurities.

Admixtures- Additives and admixtures, types, need and benefits

Mineral admixture - Fly ash, silica fume, blast furnace slag, and other pozzolonic materials.

Chemical admixtures - Accelerator, retarder, water reducing elements, plasticizer and super-

plasticizer, their functions and dosage.

12

UNIT III FRESH CONCRETE: Methods of mixing, transporting and placing of concrete. Workability –

Definition and need, factors affecting workability, various tests as per IS ad ASTM. Segregation

and bleeding, stiffening, re-tempering. Curing: necessity and various methods, micro cracking.

4

UNIT IV HARDENED CONCRETE – Compressive and tensile strength and their relationship, various tests

as per IS and ASTM. Factors affecting strength – water cement ratio, gel space ratio, aggregate

cement ratio, properties of ingredients, and effect of age, maturity, and aggregate cement-paste

interface various finishes of concrete. Introduction to aspects of elasticity, shrinkage and creep.

Tests for strength of concrete: Destructive, semi destructive and non- destructive tests with their

limitations, test methods as per IS and ASTM.

4

UNIT V DURABILITY AND PERMEABILITY OF CONCRETE: Definitions, causes, carbonation,

cracking

2

UNIT VI CONCRETE IN AGGRESSIVE ENVIRONMENT: Alkali – aggregate reaction, sulphate attack,

chloride attack, acid attack, effect of sea water, special coating for water proofing, sulphate chloride

and acid attack, concrete for hot liquids.

2

UNIT VII SPECIAL CONCRETE: Review of behavior and characteristics of high strength concrete, high

performance concrete, fiber reinforced concrete, mass concrete, light weight and heavy weight

concrete, Precast concrete.

4

22 ACM-2015

UNIT VIII SPECIAL CONCRETING TECHNIQUES : Pumped concrete, shotcrete, underwater concrete,

pre-placed concrete, vacuum dewatered concrete, hot and cold weather concreting, Ready mixed

concrete.

4

UNIT IX CONCRETE MIX DESIGN: Principles of mix proportioning, probabilistic parameters, factors

governing selection of mix. Road note - 4, DOE, ACI and IS method (10262-2009) of concrete mix

design, Variability of test results, acceptance criteria, various IS code provisions.

4

UNIT X REPAIR AND REHABILITATION: Distress in structure – causes and precautions, damage

assessment of structural elements, repairing techniques and repairing materials.

2

TERM WORK

I (A) Term work shall consist of tests on cement and aggregate, fresh concrete and hardened concrete. It

includes destructive, partial destructive and non- destructive tests.

(B) Term work shall include report on topic assigned by respective lab in-charge.

(C) Term work shall include field visit and students will have to submit a report on it.

(D) Oral/Practical marks include viva-voce on practical performed and submitted reports.

TEXT BOOKS:

I M.S.Shetty : Concrete Technology : S.Chand Publishing

REFERENCE BOOKS:

I A.M.Neville ; Properties of Concrete , Prentice Hall.

II D.F.Orchard; Concrete Technology, Elsevier Science & Technology.

III P Kumar Mehta, Monteiro; Concrete Technology, McGraw-Hill Professional.

IV A R Santhakumar; Concrete Technology, Oxford university press-new Delhi.

V M L Gambhir; Concrete Technology, Tata McGraw-Hill Education.

VI IS 456:2000, IS 383-1917, IS 10262-2009