Powder metallurgy – basics & applications
Steps in powder metallurgy: Powder production Compaction
Template for Course Details UG Department: Metallurgical and
R.M. German – Powder Metallurgy Science (MPIF). 3. F.V. Lenel – Powder Metallurgy : Principles & Applications (MPIF). 4. A.K. Sinha – Powder Metallurgy. 5
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Powder Metallurgy Design Manual 2nd ed.
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International Advanced Research Centre for Powder Metallurgy and New 3477 Sinha Rajeshwar P. Plant Biology & Botany. Banaras Hindu University. 2215.
Metal casting processes
Powder metallurgy & its applications (3 classes). Page 2. R.Ganesh Narayanan IITG. Texts: 1. A Ghosh and A K Mallik
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metallurgy – brief account of general principles of metallurgy. Extraction of ... Sinha Data Warehousing
POWDER METALLURGY
All chapters are Open Access distributed under the Creative Commons Attribution 3.0 license which allows users to download
A STUDY OF INFLUENCE OF DENSITY ON AL-CU COMPOSITION
This makes the compounds to be excellent as an additional [5] component of the mixed powder for powder metallurgy product. A. K. Sinha Powder metallurgy: ...
Research Article The Role of Tetra Hybrid Reinforcements on the
18-Aug-2022 Powder metallurgy (PM) is one of the most important solid-state methods for processing metal matrix composites [7]. In stir casting the ...
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Powder Metallurgy Upadhyaya & Upadhyaya
POWDER METALLURGY
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Introduction to Physical Metallurgy (1974).pdf
11. Cast Iron. 12. Nonferrous Metals and Alloys. 13. Metals at High and Low Temperatures. 14. Wear of Metals. 15. Corrosion of Metals. 16. Powder Metallurgy.
Powder Metallurgy (MT410602)
Characteristics of metal powder in terms of particle size shape and size distribution
POWDER METALLURGY
Powder Metallurgy (PM). Metal processing technology in which parts are produced from metallic powders. •In the usual PM production sequence the powders.
Malaviya National Institute of Technology Jaipur
Powder Metallurgy and Particulate. Materials Processing A. K. Sinha Powder metallurgy
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4. mar. 2012 Nuclear Reactor Applications. Ramani Venugopalan and D. Sathiyamoorthy. Powder Metallurgy Division and. A. K. Tyagi. Chemistry Division.
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Raychaudhuri A. K. Sinha Institute of Medical Science and Technology ... International Advanced Research Centre for Powder Metallurgy and New 3653.
Powder metallurgy – basics & applications
Powder metallurgy – science of producing metal powders and making finished Steps in powder metallurgy: Powder production Compaction
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Disaster Management in India A.K. Singh
Details of Journal publications in 2020-2021
1. okt. 2020 Sinha A Nishant N
Advances in powder metallurgy : Properties processing and
17 Automotive applications of powder metallurgy 493 P ra m a k r I S h n a n Indian Institute of Technology Bombay India 17 1 Introduction 493 17 2 Powder metallurgy parts 494 17 3 Materials 505 17 4 Innovative powder metallurgy products 508 17 5 Emerging trends 511 17 6 Conclusions 517 17 7 References 517
Chapter 18: Powder Metallurgy
PowderMetallurgy Preparedunderthedirection of the ASMInternational HandbookCommittee Volume Editors Prasan K SamalConsultant JosephW NewkirkFASMMissouriUniversityof Science andTechnology Division Editors PaulBeissRWTHAachenUniversity JonBitler KennametalInc CarlBlaisUniversite Laval AnimeshBose FASMMaterialsProcessingInc WayneK
Powder metallurgy : science technology and materials
Powder Metallurgy ScienceTechnologyandMaterials AnishUpadhyaya AssociateProfessorDepartmentofMaterialsScienceandEngineeringIndianInstitute ofTechnologyKanpurIndia GSUpadhyaya FormerProfessorDepartmentofMaterialsandMetallurgicalEngineeringIndianInstituteofTechnologyKanpurIndia Forewordby Prof DrKen-ichiTakagiTokyoCity University Tokyo Contents
ADVANTAGES AND EFFECTIVENESS OF THE POWDER METALLURGY - CORE
POWDER METALLURGY PROCESS The general sequence of operations involved in the powder metallurgy process is shown schematically in the following organigram (Figure 2) [34] The component powders are mixed together with lubricant until a homogeneous mix is obtained The mix is then loaded into a die and compacted under pres-
Chapter 18: Powder Metallurgy
Powder metallurgy is the name given to the process by which fine powdered materials are blended pressed into a desired shape and then heated to bond surfaces Typically used when large amounts of small intricate parts with high precision are required Little material waste and unusual mixtures can be utilized
Searches related to powder metallurgy by a k sinha pdf download filetype:pdf
MCE 313: Manufacturing Process I Powder Metallurgy Department of Mechanical Engineering Page 3 FIGURE 7 1: Several atomization methods for producing metallic powders: (a) and (b) two gas atomization methods; (c) water atomization; and (d) centrifugal atomization by the rotating disk method 7 2 2 Other Production Methods
What is powder metallurgy?
- ?Powder metallurgy is the name given to the process by which fine powdered materials are blended, pressed into a desired shape, and then heated to bond surfaces ?Typically used when large amounts of small, intricate parts with high precision are required
Who is the author of Chapter 18 of powder metallurgy?
- Chapter 18: Powder Metallurgy Author Darcy Wagner Created Date 7/25/2011 2:01:18 PM
What is the conventional method of compacting metal powders in pm?
- FIGURE 7.4: Pressing, the conventional method of compacting metal powders in PM: (1) filling the die cavity with powder, done by automatic feed in production, (2) initial, and (3) final positions of upper and lower punches during compaction, and (4) ejection of part.
What are the disadvantages of powder metallurgy?
- ?Inferior strength properties ?High tooling costs ?High material cost ?Size and shape limitations ?Dimensional changes during sintering ?Density variations ?Health and safety hazards 18.17 Summary Powder metallurgy can produce products out of materials that are otherwise very difficult to manufacture
Malaviya National Institute of Technology Jaipur
Revised Curriculum of M. Tech. (Metallurgical and Materials Engineering)M. Tech I Semester
With effect from 2021-2022 Session
S. No.Course
Code Course Title Category Type Credit L T P
1. 21MTT-501 Advanced Metallurgical Thermodynamics PC Theory 3 3 0 0
2. 21MTT-502 Materials Characterization PC Theory 3 3 0 0
3. 21MTT-504 Structure-Properties of Materials PC Theory 3 3 0 0
4. Program Elective-I PE Theory 3 3 0 0
5. Program Elective-II PE Theory 3 3 0 0
6. 21MTP-503 Metallurgical Laboratory PC Lab 2 0 0 4
17List of Electives
1. 21MTT-801 Advances in Heat Treatment E-1 Theory 3 3 0 0
2. 21MTT-802 Corrosion and Its Prevention E-1 Theory 3 3 0 0
3. 21MTT-803 Joining of Materials E-1 Theory 3 3 0 0
4. 21MTT-804 Nanomaterials: Processing and Properties E-2 Theory 3 3 0 0
5. 21MTT-805 Physical Metallurgy of Alloy Steels E-2 Theory 3 3 0 0
6. 21MTT-806 Properties and Processing of Polymers E-2 Theory 3 3 0 0
L=Lecture hours/week; P=Practical hours/week; T=Tutorial hours/weekM. Tech II Semester
S. No.Course
Code Course Title Category Type Credit L T P
1. 21MTT-505 Advanced Physical Metallurgy PC Theory 3 3 0 0
2. 21MTT-506 Composite Materials PC Theory 3 3 0 0
3 21MTT-507 Mechanical Behavior of Materials PC Theory 3 3 0 0
4. Program Elective-I PE Theory 3 3 0 0
5. Program Elective-II PE Theory 3 3 0 0
6. Program Elective-III PE Theory 3 3 0 0
18List of Electives
1. 21MTT-807 Advanced Ceramics and Glasses E-3 Theory 3 3 0 0
2. 21MTT-808 Extraction of Metals E-3 Theory 3 3 0 0
3. 21MTT-809 Fracture and Failure Analysis E-1 Theory 3 3 0 0
4. 21MTT-810 Functional Materials E-3 Theory 3 3 0 0
5. 21MTT-811 Light Metals and Alloys E-1 Theory 3 3 0 0
6. 21MTT-812 Non-Destructive Testing and Evaluation E-2 Theory 3 3 0 0
7. 21MTT-813 Powder Metallurgy and Particulate
Materials Processing E-2 Theory 3 3 0 0
8. 21MTT-814 Secondary Steel Making E-2 Theory 3 3 0 0
9. 21MTT-815 Surface Engineering E-1 Theory 3 3 0 0
10. 21MTT-816 Transport Phenomena in Materials
Processes E-3 Theory 3 3 0 0
M. Tech III Semester
S. No.Course
Code Course Title Category Type Credit L T P
1. 21MTD-601 Dissertation-I PC - 10 0 0 20
2. 21MTS-602 Seminar * PC - 2 0 0 4
* In lieu of seminar, interested students may be encouraged to do an internship in an industry/research organization
for 4-8 weeks during summer vacation after Semester-II and will present a seminar in semester-III.M. Tech IV Semester
S. No.Course
Code Course Title Category Type Credit L T P
1. 21MTD-603 Dissertation-II PC - 12 0 0 24
L=Lecture hours/week; P=Practical hours/week; T=Tutorial hours/weekMALAVIYA NATIONAL INSTITUTE OF TECHNOLOGY JAIPUR
Department/Centre : Department of Metallurgical and Materials EngineeringCourse Code : 21MTT-501
Course Name : Advanced Metallurgical ThermodynamicsCredits : 3 (L - 3 T - 0 P - 0)
Course Type : Core
Prerequisites : none
Course Contents
Unit-1
Review of Thermodynamics - First, second and third laws of thermodynamics, concepts of entropy, Maxwell's relations,
Clausius-Clayperon equation.
(No. of Lectures: 08)Unit-2
Solutions - Solution models, regular, sub-regular, cluster variation models, multi-parameter models, quasi-chemical theory,
statistical thermodynamics, multi-component systems. (No. of Lectures: 07)Unit-3
Equilibrium Concepts - Unary, binary, and multi-component systems, phase equilibria, the evolution of phase diagrams,
metastable phase diagrams, calculation of phase diagrams, thermodynamics of defects. (No. of Lectures: 08)Unit-4
Thermodynamics of Phase Transformations - Melting and solidification, precipitation, eutectoid, massive, spinodal,
martensitic, order-disorder transformations and glass transition, first and second-order transitions.
(No. of Lectures: 08)Unit-5
Heterogeneous Systems - Equilibrium constant, Ellingham diagrams and their application to commercially important
reactions, Porbaix Diagram, introduction to computational tools for thermodynamic equilibrium. (No. of Lectures: 05)Recommended Readings
Text Books
1. A. Ghosh, Textbook of Materials & Metallurgical Thermodynamics, Prentice Hall India, 2002.
2. D. A. Porter and K. E. Easterling, and M. Y. Sherif, Phase Transformations in Metals and Alloys, CRC Press, 3rd Ed.
(Indian reprint), 2009.3. A. Ghosh, H. S. Ray, Principles of Extractive Metallurgy, New Age Int.(P) Ltd., New Delhi, 1991.
4. R. A. Swalin, Thermodynamics of Solids, 2nd Ed., Wiley, New York, 1972.
5. S. K. Roy, Metallurgical Thermodynamics, Universities Press- IIM, 2019.
6. D. R. Gaskell and D. E. Laughlin, Introduction to Thermodynamics of Materials, 6th Ed., CRC Press Taylor and Francis
Group, 2018.
Online resources- https://nptel.ac.in
MALAVIYA NATIONAL INSTITUTE OF TECHNOLOGY JAIPUR
Department/Centre : Department of Metallurgical and Materials EngineeringCourse Code : 21MTT-502
Course Name : Materials Characterization
Credits : 3 (L - 3 T - 0 P - 0)
Course Type : Core
Prerequisites : none
Course Contents
Unit-1
Optical Microscopy - Principle of the optical microscope, components of the microscope, the concept of resolution and
magnification, specimen preparation for microscopic examination: sectioning and mounting, grinding, polishing, etching,
determination of grain size and volume fractions of the phases present in the microstructure. (No. of Lectures: 06)
Unit-2
X-ray Diffraction (XRD)- X-ray diffraction, structure factor, indexing of XRD, determination of phases, lattice parameters,
crystallite size, and residual stresses. (No. of Lectures: 06)
Unit-3
Electron Microscope (EM) - Principle and optics of scanning electron microscope (SEM) and Transmission electron
microscope (TEM), types of electron sources, image formation, resolving power, specimen preparation techniques,
applications of EMs. Electron beam-specimen interaction: contrast mechanism, bright-field image, and dark-field image,
selected area diffraction (SAD), indexing of SAD pattern, texture analysis. (No. of Lectures: 10)
Unit-4
Micro and Surface Analysis - Basic principle and applications of X-ray photoelectron spectroscopy (XPS), auger electron
spectroscopy (AES), energy dispersive spectroscopy (EDS), wavelength dispersive spectroscopy (WDS), scanning probe
microscope, electron backscattered diffraction (EBSD). (No. of Lectures: 06)
Unit-5
Spectroscopy UV Visible spectroscopy, X-ray fluorescence, infrared spectroscopy, and Raman spectroscopy.
(No. of Lectures: 03)Unit-6
Thermal Analysis - Basic principles of thermogravimetry analyzer (TGA), differential thermal analyzer (DTA), differential
scanning calorimeter (DSC), dilatometer, etc. Interpretation of curves obtained from TGA/ DSC/ dilatometer for various
materials etc. (No. of Lectures: 05)
Recommended Readings
Text Books
1. B. D. Cullity and S. R. Stock, Elements of Diffraction, 3rd Ed (Indian), Pearson, Noida, India, 2016.
2. S. Zhang, L. Li, and A. Kumar, Materials Characterization Techniques, CRC Press, New York, 2009.
3. D. Brandon and W. D. Kaplan, Microstructural Characterization of Materials, 2nd Ed., Wiley, 2008.
Reference Books
1. D. B. Williams and C. Barry Carter, Transmission Electron Microscopy, 2nd Ed., Springer, 2009.
2. J. Goldstein, Scanning Electron Microscopy and X-ray microanalysis, 3rd Ed., Springer, 2007.
Online resources- https://nptel.ac.in
MALAVIYA NATIONAL INSTITUTE OF TECHNOLOGY JAIPUR
Department/Centre : Department of Metallurgical and Materials EngineeringCourse Code : 21MTT-504
Course Name : Structure-Properties of Materials
Credits : 3 (L - 3 T - 0 P - 0)
Course Type : Core
Prerequisites : none
Course Contents
Unit-1
Fundamental characteristics of metals, ceramics, and polymers, coordination number, atomic structure, crystal structure,
crystalline defects. (No. of Lectures: 08)Unit-2
Evaluation of mechanical properties.
(No. of Lectures: 07)Unit-3
Microstructure and low-temperature strength, microstructure and high-temperature strength - structure-property relationships
in super-alloys for high-temperature applications, microstructure, and low-temperature fracture, microstructure, and high-
temperature. (No. of Lectures: 08)Unit-4
Effects of composition, processing, and structure on properties of irons and steels, effect of low temperature and high
temperature on strength, the evolution of microstructure in steel products rail steel, steel sheet, cast-iron.
(No. of Lectures: 06)Unit-5
Effects of composition, processing, and structure on properties of non-ferrous alloys Al, Cu, Ni, Ti, Zn, Mg.
(No. of Lectures: 07)Recommended Readings
Text Books
1. K. M. Ralls, T. H. Courtney, and J. Wulff, Introduction to Materials Science and Engineering, John Wiley, 1976.
2. T. H. Courtney, Mechanical Behavior of Materials, McGraw-Hill, 1990.
3. R. W. Hertzberg, R. P. Vinci, J. L. Hertzberg, Deformation and Fracture Mechanics of Engineering Materials, 5th
edition, John Wiley, 2012.Reference Books:-
1. ASM Handbook, Volume20: Materials Selection and Design, CRC Press, 1997.
Online resources- https://nptel.ac.in
MALAVIYA NATIONAL INSTITUTE OF TECHNOLOGY JAIPUR
Department/Centre : Department of Metallurgical and Materials EngineeringCourse Code : 21MTT-801
Course Name : Advances in Heat Treatment
Credits : 3 (L - 3 T - 0 P - 0)
Course Type : Elective (E-1)
Prerequisites : none
Course Contents
Unit-1
Furnaces,basics of heat treatment, review on different types of heat treatment techniques, heat treatment process variables,
the effect of heating and cooling on properties of steel, quenching technology, high-pressure gas quenching, applications of
vacuum oil quenching. (No. of Lectures: 09)Unit-2
Recovery, recrystallization, and grain growth, TTT curves, and CCT diagram and its significance to heat treatment.
(No. of Lectures: 08)Unit-3
Hardness and hardenability of steels and methods of determination, case hardening processes for steels (induction hardening,
carburizing, nitriding, boronizing, carbonitriding), thermo-mechanical treatments, precipitation hardening (Maraging steel,
PH stainless steel, Al-Cu based alloys), vacuum treatments, vacuum carburizing. (No. of Lectures: 07)Unit-4
Heat treatment of special steels like high speed steels, maraging steels, spring steels, ball bearing steels, stainless steels heat
treatment defects and remedial measures. (No. of Lectures: 06)Unit-5
Heat treatment of some important non-ferrous metals such as aluminium, titanium, nickel, etc. (No. of Lectures: 06)Recommended Readings
Text Books
1. T. V. Rajan, C. P. Sharma, A. Sharma, Heat Treatment: Principles, Prentice Hall of India Pvt. Ltd., New Delhi,1994.
2. S. K. Mandal, Heat Treatment of Steels, McGraw Hill Education (NOIDA, India), 2017.
3. V. Singh, Heat treatment of Metals, Standard Publisher Distributors, 1998.
4. V. Raghvan, Physical Metallurgy: Principles and Practice, 3rd edition, Prentice Hall of India Publishing, 2015.
Reference Book
1. W. H. Cubberly, ASM Metals Handbook, 9th edition, Volume 4, 1981.
Online resources- https://nptel.ac.in
MALAVIYA NATIONAL INSTITUTE OF TECHNOLOGY JAIPUR
Department/Centre : Department of Metallurgical and Materials EngineeringCourse Code : 21MTT-802
Course Name : Corrosion and its Prevention
Credits : 3 (L - 3 T - 0 P - 0)
Course Type : Elective (E-1)
Prerequisites : none
Course Contents
Unit-1
Relevance & importance of corrosion studies, costs of corrosion, expressions for corrosion rate. (No. of Lectures: 02)
Unit-2
Electrochemical & thermodynamic principles of corrosion, electrode kinetics, its application to experimental observations,
activation, and concentration polarization, graphical representation of kinetic data, determination of Ecorr and Icorr from
potentiodynamic polarization curve, passivity & electrochemical behaviour of active-passive metals & alloys.
(No. of Lectures: 14)Unit-3
Different forms of corrosion: Uniform, galvanic, intergranular, pitting, crevice, dealloying, stress corrosion cracking,
corrosion fatigue, hydrogen embrittlement, high temperature corrosion. (No. of Lectures: 10)
Unit-4
Corrosion prevention: Selection of proper materials, development of suitable alloys, design improvement, modification of
environment, cathodic & anodic protection, corrosion & its prevention, coating. (No. of Lectures: 06)
Unit-5
Case studies related to combatting corrosion in industries. (No. of Lectures: 04)
Recommended Readings
Text Books
1. L. L. Shrier, R. A. Jarmon and G.T. Bursteir, Corrosion: Vol. I & II, Butterworth & Heinemann publications, Great
Britain, 1994.
2. D. Talbot and J. Talbot, Corrosion Science and Technology, CRC Press, London, 2019.
3. M. G. Fontana, Corrosion Engineering, Tata McGraw-Hill, 3rd Ed. (seventh reprint), 2008.
4. D. A. Jones, Principles and Prevention of Corrosion, Prentice-Hall, 1996.
Reference Books
1. P. R. Roberge, Corrosion engineering: principles and practice, McGraw-Hill, 2008.
2. V. S. Sastri, E. Ghali, and M. Elboujdaini, Corrosion prevention and protection: Practical solutions, John Wiley and
Sons, 2007.
Online resources- https://nptel.ac.in
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