# B.Tech + MBA Tech. (Int.)course at thane

JRD Global EDURs 2,50,000

## Important information

- Bachelor
- Thane
- 5 hours of class
- Duration:

5 Years - When:

Flexible - Credits:

This institution offers various programs such as M.B.A., Executive M.B.A, Dip., Post Graduation Dip. in Certification programs extra. Here student option of campus. Online & postal examination. In campus examination student have to present in canter for the exams and for postal they receive the question paper on their address and they have to revert back within ten days with the solution sheet.

Suitable for: This program is for those student who have done 12th with P.C.M.(P.C.M./P.C.B. for Biotech. & Agricultural Engg.) / Dip. in Engineering for lateral entry.

Starts | Location | Timetable |
---|---|---|

Flexible |
Thane03 Lula Arcade bhanu sagar theatre, Kalyan w Thane, 421301, Maharashtra, India See map |

## Frequent Asked Questions

**· Who is it intended for?**

12th Sci students can apply

**· Requirements**

For this program student should have done Five yrs (Integrated. Program) & (Four yrs for lateral entry).

**· Qualification**

12th Sci students can apply

**· What marks this course apart?**

ONLINE STUDY SELF LEARNING PROGRAM

**· What happens after requesting information?**

ON LINE APPLICATION FORM REGISTRATION DETAILS

## What you'll learn on the course

Engineering Geology | Engineer | Engineering Drawing |

## Teachers and trainers (1)

## Course programme

This program focuses on technology and specially in this program they focus on B.Tech & MBA in technology

Program Content:

** Computer Sci. & Engg.,

** Electronic & Com. Engg.

** IT

** Electrical Engg.

** Biotech.

** Civil Engg.

** Mechanical Engg.

** Agricultural Engg.

**DEPARTMENT OF METALLURGICAL ENGINEERING**

** **

**MATHEMATICS-III**

**(Common with Mechanical Engineering)**

** **Vector calculus. Differentiation of vectors, curves in space, Velocity and acceleration, Relative velocity and acceleration, Scalar and Vector point functions – Vector operation del. Del applied to scalar point functions – Gradient, Del applied to vector point functions – Divergence and Curl. Physical interpretation of div F curl. F del applied twice to point functions, Del applied twice to point functions, Integration of vectors, Line integral- Circulation – Work surface integral – Flux, Green’s theorem in the plane, Stoke’s theorem, Orthogonal curvilinear co-ordinates Del applied to functions in orthogonal curvilinear co-ordinates, Cylindrical coordinates – spherical polar co-ordinates.

Partial differential equations. Formation of partial differential equations, Solutions of a partial differential equation, Equations Solvable by direct integration. Linear equations of the first order, Homogenous linear equations with constant coefficients, Rules for finding the complementary function, Rules for finding the particular integral, working procedure to solve homogenous linear equations of any order. Non-homogeneous linear equations.

Applications of Partial Differential equations. Introduction, Methods of separation of variables, partial differential equations of Engineering, Vibration of a stretched stirring-wave equation, One-dimensional heat flow, Two dimensional heat flow, Solution of Laplace’s equation, Laplace’s equation in polar co-ordinates .

** **Integral Transforms. Introduction, Definition, Fourier integrals-Fourier sine and cosine integrals-complex forms of Fourier integral, Fourier transform-Fourier sine and cosine transforms – finite Fourier sine and cosine transforms, Properties of F-transforms, Convolutions theorem for properties F-Transforms, Paraseval’s identity for F-transforms, Relation between Fourier and Laplace transforms, Fourier transforms of the derivatives of a function, Inverse Laplace transforms by method of residuals, Application of transforms to boundary value problems.

** **

**Text books**: 1. Higher Engineering Mathematics, by B.S.Grewal, Khanna Publishers, New Delhi-

110006. 34th Edition,1998.

** **

**Reference:**

1. A text book of Engineering Mathematics – NP Balietal, Laxmi Publications (P) Limited, New Delhi-110002

2. Higher Engineering Mathematics – Dr MK Venkataraman, National Pub.Co. Madras-1

3. Advanced Mathematics for Engineering Students, Vol.2 and Vol.3 - Narayan, Manicavachagaon

Pillay and Ramanaiah.

4. Advanced Engineering Mathematics, - Erwin Kreyszig, Wiley Easter Pvt. Ltd., New Delhi- 49

5. Engineering Mathematics by P.P.Gupta , Krishna Prakasham Media(P) Ltd, Meerut Vol-2.

6. Advanced Engineering Mathematics by V.P.Jaggi and A.B.Mathur, Khanna Pub. New Delhi-6

7. Engineering Mathematics by S.S.Sastry, Prentice Hall of India, Pvt. Ltd., New Delhi-1

8. Advanced Engineering Mathematics by Prof.H.K.Dass, S.Chand and Co. Ltd. New Delhi-51.

** **

**ENGINEERING MECHANICS –I**

Concurrent forces in a plane and its equilibrium. Centroids of composite plane figures. General case of forces in a plane. Moment of inertia of plane figures. Parallel axis theorem. Polar MI. Concept of mass MI. Rectilinear translation. Kinematics. Principle of dynamics. Motion of a particle under constant force. Force proportional to displacement and free vibrations (SHM) . D’Albert’s principle. Momentum. Impulse work and energy. Rotation of a rigid body about a fixed axis kinematics. Equation of motion of a rigid body about a fixed axis. Rotation under constant moment. Torsional vibration.

**Text books**:

1. Engineering Mechanics – S.Timoshenko (relevant sections only)

** **2. Elements of Strength of Materials- S.Thimoshanko (relevant sections only)

**STRENGTH OF MATERIALS**

** **

Simple stresses and strains. Stresses on inclined plane. 2-Dimensional stress systems. Principal stress and principal planes. Mohr’s circle. Shearing force and bending moment. Types of loads. Types of supports. SF and BM diagrams for formula. Bending stresses in the above types of beams with rectangular and circular sections. Torsion of circular shafts. Determination of shear stress.

**Text books: **

1. Engineering Mechanics – S.Timoshenko (relevant sections only)

2. Elements of Strength of Materials- S.Thimoshanko (relevant sections only)

**FUELS, REFRACTORIES AND FURNACE TECHNOLOGY**

Solid fuels. Classification. Theories of formation of coal. Study types and properties of coal. Proximate analysis & ultimate analysis of coal. Carbonization of coal. Coke and by products. Testing and properties. Liquid fuels. Classification. Theories of formation of petroleum. Petroleum refining. Distillation. Synthetic petrol. Bergius process. Fischer-Trospesch process. Coal tar fuels. Testing and properties. Gaseous fuels. Classification. Production of PG,WG, CWG,LD gas, Coke oven gas and BF gas. Industrial gasification processes. Lurgi, Winklers and Kopper_ Totzek processes. Properties and testing. Liquid and gaseous fuel burners. Combustion problems.

Refractories. Definition . Properties, classification and general description. Manufacturing of refractories. Manufacture, properties and applications of Alumino-silicate, Silica, Dolomite, Magnesite, Chromite and Carbon refractories. Importance and study of SiC,ZrO2 and cermets. Testing of refractories.

Furnaces. Classification of furnaces and their use in metallurgical industries. Elements of heat transmission. Steady state conduction, convection and radiation. Heat utilization in furnaces, available heat, factors affecting it. Heat losses in furnaces and furnace efficiency. Heat balance and Sankey diagrams. Principles of waste heat recovery. Recuperators and regenerators. Types and applicability. AMTD and LMTD in recuperators. Protective atmosphere and their applications . Salt bath furnaces.

**Text books:**

1. Fuels, furnaces and refractories by O.P.Gupta

**References:**

1. Fuels, Technology by Hinues

2. Fuels by Gilechrist

3. Refractories by Chesty

** **

**MACHINE DRAWING **

** **

** **Screw threads and Screw Fastening using standard empirical formulae. Riveted joints, Keys, Cotter-joints, Pin-joints. Shaft couplings: Box and split muff couplings, Flanged, Flexible. Universal and Oldham couplings. Shaft bearings . Brackets and Hangers. Pipe joints.

Orthogonal view and sectional views of machine parts. Assembly drawing of various engine components and machine tool components.

** **

**Text books:**

1. Machine Drawing, N.D.Bhatt, Charotal Publishing House.

2. Engineering Drawing, A.C.Parkinson,Wheeler publishing.

**MANUFACTURING TECHNOLOGY-1**

Manufacturing concepts; Product cycle; Job, batch and mass production; Primary and secondary manufacturing processes; Principle of metal casting; Terminology; Pattern; Types; Allowances; Materials; Core boxes; Selection; Testing and preparation of moulding sands; Moulding tools and equipment; Machine moulding; Core making; Sprue; Runner, gates and risers; Types and designing; Melting and pouring the metal; Shell mold casting; Investment casting; Permanent mould casting; Casting defects.

Formability of metals; Cold and hot working; Rolling; Types; Roll size; Stretch forming, metal spinning, embossing and coining; Peening; Sheet metal forming operations; Presses; Die design.

Forging materials; Forging processes; Forging techniques; Forging presses; Forging pressure distribution and forging force; Automation of forging; Swaging; Drawing; Extrusion; High energy rate forming.

Weldability; Welding metallurgy; Principles and processes of arc welding (SMAW, GTAW, GMAW, FCAW, PAW, SAW); Welding equipment; Weld positioners and fixtures; Oxyacetylene welding; Flame cutting; Brazing and soldering; Principle of resistance welding; Types of resistance welds; Seam welding; Projection welding; Resistance butt welding; Solid state welding; Weld inspection and testing.

**Text Book:**

1. Process and Materials of Manufacture (4th Edition) by Roy A. Lindberg, Prentice-Hall of India Private Limited.

**Reference Books:**

1. Manufacturing Engineering & Technology by Kalpak Jain, Addition Wesley Edition.

2. Materials and Processes in Manufacturing by De Margo, Black and Kohsen, Prentice Hall of India.

3. Principles of Metal Casting by Hein and Rosenthol, Tata Mc-Graw HillIndia.

4. Manufacturing Technology-Foundary, Forming and Welding by P.N. Rao, Tata McGraw-Hill Publishing Company.

** **

**Production Technology **

Use of basic tools and operations of the following trades.

S.No.

Trade

Number of jobs

1

Foundry

3

2

Welding

2

3

Lathe

Step and taper turning-1

4

Milling

Thread cutting -1

Offset turning - 1

5

Shaper

Spur gear-1

** **

**Strength of Materials **

1. To study the stress strain characteristics of metals by using UTM by tension test.

2. To study the stress strain characteristics of metals by using Hounsfield tensometer.

3. Determination of compression strength of wood.

4. Determination of hardness using different hardness testing testing machines-

Brinnels, Vickers and Rockwell’s

5. Impact test by using Izod & charpy methods.

6. Deflections test on beams using UTM.

7. Tension shear test on MS rods.

8. To find stiffness & modulus of rigidity by conducting compression tests on springs.

9. Torsion tests on M.S.Shafts.

10. Bulking of sand.

11. Punch shear test, hardness test & compression test by using Hounsfield tensometer.

12. Hardness test using UTM

13. Sieve analysis and determination of fineness number.

**FUELS & MECHANICS **

1. To assemble the given parts of the mechanism kit for different types of mechanisms

2. To determine the moment of inertia of the given fly wheel.

3. To determine the moment of inertia of the given connecting rod.

4. To determine the modulus of rigidity of the given wire with torsional pendulum.

5. To determine the coefficient of friction with Thurston oil tester.

6. Study and valve timing diagrams of four stroke and two stroke engine.

7. Study of boilers, fuel pumps, carburetors etc.

8. To determine the volumetric efficiency of the given air compressor by

1. Plate orifice method and 2. Tank capacity method.

9. To calibrate the given pressure gauge.

10. Determination of Flash and fire points of oils.

11. Determination of Calorific value of fuels(solids, liquid, gaseous) by bomb

Calorimeter/gas calorimeter.

12. To determine the kinematic and absolute viscosity of the given sample oil using

Redwood Viscometer I.

13. To determine the kinematic and absolute viscosity of the given sample oil using

Redwood Viscometer II.

14. Determination of carbon residue.