MECHERA JULY 2017

Volume II Issue II

Department of Mechanical Engineering,

GMR Institute of Technology

I N S I D E T H I S I S S U E

1. Vision and Mission

2. Overview and Program Outcomes

3. Program Educational Objectives

4. Facilities & Infrastructure, Courses offered

5. Academic Achievements

6. Active Research

7. New Recruits

“Change is the end result of true learning.”

-- LEO BUSCAGLIA ---

Mechanical engineering is a discipline of engineering thatapplies the principles of physics and materials science foranalysis, design, manufacturing, and maintenance ofmechanical systems. It is the branch of engineering thatinvolves the production and usage of heat and mechanicalpower for the design, production, and operation ofmachines and tools. It is one of the oldest and broadestengineering disciplines.

The engineering field requires an understanding of coreconcepts including mechanics, kinematics,thermodynamics, materials science, and structuralanalysis. Mechanical engineers use these core principlesalong with tools like computer-aided engineering andproduct lifecycle management to design and analyzemanufacturing plants, industrial equipment andmachinery, heating and cooling systems, transportsystems, aircraft, watercraft, robotics, medical devicesand more.

Scope There is tremendous scope for mechanical engineers inautomobile engineering, cement industry, steel, powersector, hydraulics, manufacturing plants, drilling andmining industry, petroleum, aeronautical, biotechnologyand many more. Nowadays they are also increasinglyneeded in the environmental and bio-medical fields.

Intro

Head of the Department: Dr.V.Chittibabu Edited by: Dr.P.N.L.Pavani Author: Mr.A.L.Naidu

“Every success is

usually an admission

ticket to a new set of

decisions.”

- HENRY KISSINGER-

To be a nationally preferred department of learning for students and

teachers alike, with dual commitment to research and serving students

in an atmosphere of innovation and critical thinking.

Mission

To provide high-quality education in Mechanical Engineering to prepare the graduates for a rewarding career in Mechanical Engineering and related industries, in tune with evolving needs of the industry.

To prepare the students to become thinking professionals and good citizens who would apply their knowledge critically and innovatively to

solve professional and social problems.

Vision

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“Each life is made up of

mistakes and learning,

waiting and growing,

practicing patience

and being persistent.”

- Billy Graham

Mechanical Engineering activities at the GMR Institute of Technology commenced in 1997. The Department is accredited with NBA as well as NAAC. The annual intake of this Department is 120 students.

The Department of Mechanical Engineering offers a richly integrated curriculum of education and research to its students. The Department offers Masters programme (M.Tech. Thermal Engineering). Students have a variety of opportunities to investigate a broad range of research in thrust areas. Some of the specific areas include Alternate Fuels, Nano Materials and Coatings, Metal Matrix Composites, Bio-degradable Polymers and Reliability Engineering. Much of the research is conducted within the department, but many projects are carried out in collaboration with other departments and centers on campus, as well as with other R&D institutions and national laboratories in the country and abroad. The faculty, students and staff author have research publications annually in leading national and international journals and conferences. Several of the faculty are fellow of various national academies in science and engineering, and have received recognition in the form of national and international awards. The alumni and staff of this department occupy high positions in institutions of higher learning, research laboratories and industries in India and abroad

The Mechanical Engineering Faculty is continuing to explore new areas of research and develop new courses. The Department is well equipped with state of the art laboratories and infrastructural facilities. The Department receives funding from agencies such as UGC, AICTE, DST, and public and private industries. Our faculty members render assistance to leading industries through technical advice and consultancy services.

OVERVIEW

o

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“Anybody who is really successful has doubts .“

– JERRY BRUCKHEIMER--.

Program Educational Objectives • Engage in ongoing learning and professional development

through self-study, continuing education in mechanicalengineering and in other allied fields.

• Apply engineering skills, critical thinking and problem-solving skills in engineering practices or tackle social,technical and business challenges.

• Demonstrate professional excellence, ethics, soft skills and leadership qualities

Facilities & Infrastructure

• Work Shop/Production Technology Lab

• Machine Tools Lab

• Thermal Engineering Lab

• Heat Transfer Lab

• Strength of Materials Lab

• Metallurgy Lab

• Instrumentation Lab

• Metrology Lab

• CAD Lab

• CAM &Mechatronics Lab

Major Courses Offered

• Thermal Engineering

• Production Engineering

• Design Engineering

• Industrial Engineering

• CAD/CAM

• Robotics

• Finite Element Method

• Operations Research

• Power Plant Engineering

• Refrigeration & Air-Conditioning Engineering

• Reliability Analysis

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Trends of Mechanical Engineering

Polymer Composites-Mr. A.L.Naidu

Polymer Matrix Composites (PMCs) are lightweight, high strength, fiber reinforced composites capable of withstanding a wide range of challenging thermal and environmental conditions. We have the capability to dramatically change the material properties through customization of fiber types, architecture, resin system, fiber spacing, and fiber volume. Further specialization can be achieved through integration of vertical plane steps, chamfered corners, and selective yarn placement, providing enhanced transitional performance. While all PMCs take advantage of the combined property benefits of a tailored fiber and matrix system, only PMC’s solution uses a proprietary weaving technique that improves material performance by using uncrimped fibers and placing fiber reinforcements in three or more directions, even at equal fiber volumes. The unparalled strength provided by the uncrimped fiber reinforcement results in very unique benefits: -

� Eliminates the weakness inherent in traditional 2D or 3D composites

� Increased material thicknesses over traditional 2D or 3D processes

� Distinct strength to weight ratio advantage over metals

This distinct feature of PMCs in combination with a material system that can be tailored to

your needs provides an excellent product that meets your specific application needs.

Biomaterials

The development of novel composite biomaterials that can induce the growth of connective

tissue on the surface of implants and thus accelerate healing and improve the strength and

biological stability of the implant tissue connection (materials for replacement of soft and

hard tissues).

In our campus, we manufactured some objects through hands-on experience for the

application of mechanical engineering field. We manufactured biodegradable Lord

Vinayaka idol by the polymer composites.

Materials for Energetics and Ecology

The development of novel composite materials with functionally graded structures for

improving the efficiency and lifetimes of components and devices for energetics,

communication and control technologies (conductive polymer materials for electrodes,

biopolymers and precursors from plants and plant residues).

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MECHERA Structural Materials: The development of novel polymeric composites with excellent mechanical and thermal properties for structural applications (polymer multifunctional composites for high-tech engineering applications). CONTENT OF RESEARCH: Advanced Polymers and Composites The main activity of the research group is to investigate advanced methods of preparing multifunctional homogeneous and heterogeneous polymeric materials (biomaterials, electro materials and structural materials) to characterize their structure on various dimensional scales, to quantify structure-property-function relationships on the various structural levels and to develop procedures for engineering the properties of this class of materials in the process of their preparation. Specific Research Activities Include: Preparation of advanced multifunctional polymeric and biopolymeric materials: Research in the preparation of novel, advanced multilevel and multifunctional homogeneous and heterogeneous polymeric materials employing advanced syntheses of multifunctional macromonomers and polymers, ultrathin nanostructured polymeric layers and including function specific chemical modifications of biopolymers, syntheses of monomers and polymers from renewable resources and the utilization of genetically modified micro-organisms to produce biopolymers of the prescribed molecular structure. Quantification of structure-property-function relationships in bulk materials: The characterization of the structural parameters, specific functions and properties of the synthesized materials on various dimensional scales from the nanoscale through the microscale to the macroscale and research in ways of controlling the properties and functions in the various steps of material preparation from the molecular level, through the super molecular level and morphology to the phase structure and spatial arrangement of the heterogeneities. In addition to the physio-chemical and mechanical properties, the biotoxicity and ecotoxicity of the new materials will also be investigated. Mechanisms of polymer degradation: Research in the mechanisms and kinetics of degradation of the synthesized materials via hydrolysis and bacterial action, migration of the degradation products to biotic and abiotic components of the environment including investigations in the retention of these species in the environment and in living organisms on the molecular, cellular, tissue and metabolic levels; the use of blood derivatives as bioindicators will also be investigated. Later, the research of degradation mechanisms of commodity plastics and compounds. The investigation of phenomena taking place in the polymer matrix under application conditions; the development of new, more stable materials and ways of making reliable predictions of their service life. Accelerated ageing: Degradation tests will be carried out in climatic and thermal shock chambers with the possibility of setting up and maintaining the working factors applied to the test samples of materials for the duration of the test. Specifically, this means accelerated life tests accelerated thermal ageing, electrical stress and multi stress ageing, cyclical thermal stress (variations in temperature), thermal shock testing, higher relative humidity impact and the effects of visible and UV radiation.

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Computer modelling and simulations: The development of novel simulation procedures and methods for computer modelling of structure-property-function relationships in heterogeneous polymeric materials and failure in anisotropic polymeric systems to support computer aided material design, Non-Fickean diffusion in degrading solids to predict the lifespan of the polymeric waste. Advantages:

� These composites have low density and low in cost.

� High specific strength and high specific modulus

Disadvantages: � Working temperature is low compared to conventional materials.

� Hydrophobic in nature.

Polymer composites are used in many applications like Automotive, Aerospace, Sports, House holding applications etc.,

(a)Biodegradable Lord Vinayaka Idol (b)Natural Fiber reinforced composites

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MECHERA

Publications

1. B. M. V. A. Raju, “An efficient method for exploded view generation through assembly

coherence data and precedence relations”, World Journal of Engineering, Published online

first. ISSN: 1708-5284, Indexed in ESCI, Scopus.

2. D. Srinivasa Kumar, K.V.S. Prasad, “A Logical Investigation of Demographic Characteristics of

Human Population in Selected Area of Srikakulam District”, International Journal of Mechanical

Engineering and Technology (IJMET), Volume-9, Issue-2, pp- 539-546, February 2018. ISSN:

0976 – 6340, Indexed in Scopus.

3. D. Srinivasa Kumar, A. Lakshumu Naidu, “The Business Philosophies for Extended Enterprise in

Manufacturing Automobile Sectors”, International Journal of Mechanical and Production

Engineering Research and Development (IJMPERD), Volume-8, Issue-2, pp- 715-730, April 2018.

ISSN: 0976-6359, Indexed in Scopus.

4. D. Abhishekkrishna, M. Anusha, A. Saravana Kumar, “Role of Solid Lubrication in Materials”,

International Journal for Research And Development In Technology, Volume-8, Issue-6, pp-355-

359, December-2017. ISSN: 2349-3585, Indexed in Google Scholar.

5. Balamurali Gunji ,B.B.V.L.Deepak , M. V. A. Raju Bahubalendruni , Bibhuti Bhushan Biswal, “

An Optimal Robotic Assembly Sequence Planning by Assembly Subsets Detection Method Using

Teaching Learning-Based Optimization Algorithm”, IEEE Transactions On Automation Science

And Engineering, Published online first. ISSN: 1545-5955, Indexed in SCI, Scopus.

6. J. Kalpana, P. Srinivasa Rao, P. Govinda Rao, “A review on techniques for improving the

mechanical properties of fusion welded joints”, Engineering Solid Mechanics, Volume-5, Issue-

4, pp- 213-224, Aughust-2017. ISSN: 2291-8744, Indexed in Scopus.

7. J. Kalpana, P. Srinivasa Rao, P. Govinda Rao, “ Effect of Vibratory welding process on hardness of dissimilar welded joints”, Engineering Solid Mechanics, Volume-5, Issue-2, pp- 213-224,

July-2017. ISSN: 2291-8744, Indexed in Scopus.

8. J. Kalpana, P. Srinivasa Rao, P. Govinda Rao, “Influence of Amplitude on the tensile Strength

of Welded Joints fabricated under Vibratory weld conditioning”, Journal of mechanical

engineering research and developments, Volume-39, No.3, pp- 757-762, 2016. ISSN: 1024-

1752, Indexed in Scopus.

9. J. Kalpana, P. Srinivasa Rao, P. Govinda Rao,” Effect of Frequency on impact Strength of

Dissimilar weldments produced with vibration”, International Journal of Chemical Sciences,

Volume-14, Issue-3, pp- 1797-1804, 2016. ISSN: 0971-768X, Indexed in Scopus.

10. K. Santa Rao, C.L.V.R.S.V. Prasad, G. Swaminaidu, “Influence of dominant variables and their

optimization for nanopowder blended EDM process”, Journal of Engineering Technology,

Volume-6, Special issue on Technology Innovations and applications, pp-164-169, October-

2017. ISSN: 0747-9964, Indexed in SCI and Scopus.

11. G.V.D. Mohan, Srinivas Kona, A. Lakshmu Naidu, “A small-scale fabrication facility for extraction of alternative diesel fuel from waste plastic”, International Journal of Mechanical and Production Engineering Research and Development, Volume-8, Issue-1, pp- 521-530, February 2018. ISSN: 2249-6890, Indexed in Scopus.

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12. U. Sudhakar, J. Srinivas, M.V.A. Raju Bahubalendruni, “ Flexural Behaviour Characterization of AA5251-AA6063 joint prepared through Fricition Stir Welding process”, International

Journal for Research and Development in Technology”, Volume-8, Issue-6, pp: 211-214,

December-2017. (Indexed in Google Scholar) (ISSN: 2349-3585).

13. S. Chiranjeeva Rao, B. Ravisankar, B.M.V.A. Raju, “ A GRNN based frame work to test the

influence of nano zinc additive biodiesel blends on CI engine performance and emissions”,

Egyptian Journal of Petroleum (Elsevier Journal), published online first in September 2017.

(Indexed in DOAJ) (ISSN: 1110-0621).

14. M.V.S.Babu, K.N.S.Suman, A.Ramakrishna, "Improvement of Fatigue Strength of Tin Babbit

by Reinforcing with Nano Ilmenite", Journal of Engineering Science and Technology, Vol.12,

Issue 8, pp. 1999 - 2009, October, 2017, ISSN No.: 1823-4690, Scopus Indexed: Yes.

15. Ch.Vinod Babu, M. Vykunta Rao, U. Sudakar, “Analysis of composite leaf spring: A

comparison”, International Journal of Mechanical Engineering and Technology (IJMET),

Volume.8, Issue.6, pp-688-694, June-2017. ISSN: 0976-6359, Indexed in Scopus.

16. Chiranjeeva Rao Seela, Ravisankar Bhuvanagiri, Rajesh Bathi “Effect of Nano Al2O3 Added Jatropha Methyl Ester On CI Engine Performance and Emissions”, Rasayan Journal of

Chemistry, Volume. 10, No. 4, pp-1189-1193, October - December, 2017. ISSN: 0976-0083,

Indexed in Scopus.

17. D. Venkata Rao, K. Srinivas, A. Lakshumu Naidu, “ A review on Jute stem Fiber and its

Composites”, International Journal of Engineering trends and Technology (IJETT), Volume.6,

Issue.1, pp-1-11, September-2017. ISSN: 2231-5381, Indexed in Google Scholar.

18. Ch.Vinod Babu, K. Ramji, “Structural Analysis of Nanocomposite Foundation for Marine

Machinery”, Journal of Engineering Science and Technology Review, Volume-10, Issue-4, pp-

31-36, 2017. ISSN: 1791-2337, Indexed in Scopus.

19. V. Rambabu, J. Ramarao, S. Ravibabu, “ Enhancement of Heat transfer in Shell and Tube

heat exchanger by using nano fluid”, International Journal of Mechanical and Production

Engineering Research and Development (IJMPERD), Volume-7, Issue -5, pp-191-198, October-

2017. ISSN: 2249-6890, Indexed in Scopus.

20. G. Musalaiah, B.V. Suresh, B. Prasanth, B. Dhanraj, “ Experimental Studies on Tensile

Properties of Jute Fiber reinforced Polymer Composites”, International Journal of

Mechanical and Production Engineering Research and Development (IJMPERD), Volume-7,

Issue -4, pp-321-326, August-2017. ISSN: 2249-6890, Indexed in Scopus.

21. G. Musalaiah, Y. Shireesha, P. Kamal Kumar, P. Satyanaryana Raju, “ Compressive and

Flexural strength improvement of Jute Fiber reinforced polymer composited”, International

Journal of Mechanical and Production Engineering Research and Development (IJMPERD),

Volume-7, Issue -4, pp-235-240, August-2017. ISSN: 2249-6890, Indexed in Scopus.

22. M. Sekar, I. Kantharaj, Amit Siddhappa, “Machining Chatter Analysis for High Speed Milling

Operations” IOP Conference series: Materials Science and Engineering, Volume.247, No.1.

pp. 012014, October 2017, (Scopus), ISSN: 757-899X.

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23. M. Sekar, B. Suresha, I. Kantharaj, “Design of Smooth Ramp Feedrate for Machining

Complex NURBS Paths”, IOP Conference series: Materials Science and Engineering,

Volume.247, No.1, pp. 012017, October 2017, (Scopus), ISSN: 757-899X

24. N. Venkatesh, M. Srinivasa Rao, A. Lakshmu Naidu “Evaluation of high speed diesel engine

performance and characteristics of its emissions with carbon nanotubes added ethanol-

diesel blends ”, International Journal of mechanical and production engineering research

and development, Volume.7, Issue No-4, pp- 439-446,August 2017. ISSN(E): 2249-8001,

Indexed in Scopus.

25. D. Srinivasa kumar “Effect of working capital on firms Profitability: A Pragmatic study with

reference to Pharmaceutical companies in India”, International Journal for Advanced

Research, Volume.5, Issue No-7, pp- 668-672, 2017. ISSN 2320-5407, Indexed in Google

Scholar.

26. Chiranjeeva Rao Seela, B. Ravi Shankar, D. Kishore, MVS. Babu “Experimental analysis on a

DI diesel engine with cerium-oxide-added Mahua methyl ester blends”, International

Journal Ambient Energy, Published online on 10th August, 2017. ISSN 2162-8246, Indexed in

ESCI.

27. S. Chiranjeeva Rao, A. SaravanaKumar, G. Chandra Sekhar, “Influence Of Nano Added Mme

Blends On Ci Engine Based On Doe Concept”, International Journal of Mechanical

Engineering and Technology (IJMET), Volume.8, Issue.7, pp-860-868, July-2017. ISSN: 0976-

6359, Indexed in Scopus.

28. D. Venkata Rao, “A Subassembly identification method for optimal assembly sequence

generation”, International Journal of Mechanical Engineering and Technology (IJMET),

Volume.8, Issue.7, pp-449-454, July-2017. ISSN: 0976-6359, Indexed in Scopus.

29. G. Musalaiah, B.V. Suresh, Monica Tanniru, P. Ramakrishna Reddy, “ Development and

Mechanical Characterisation of glass fiber reinforced polymer composite”, International

Journal of Mechanical Engineering and Technology (IJMET), Volume.8, Issue.7, pp-231-239,

July-2017. ISSN: 0976-6359, Indexed in Scopus.

30. G. Musalaiah, Y. Shireesha, M.V Babu Tanniru, U. Pranavi, “ Flexural strength enhancement

of glass fiber reinforced polymer composite”, International Journal of Mechanical

Engineering and Technology (IJMET), Volume.8, Issue.7, pp-240-246, July-2017. ISSN: 0976-

6359, Indexed in Scopus.

31. Simhadri Kambala, Ibrahim Mohaamad, “A Study On The Performance Of An Ejector

Expansion Refrigeration (Eers) System Using Various Refrigerants And Geometric

Parameters”, International Journal of Mechanical Engineering and Technology (IJMET),

Volume.8, Issue.7, pp-992-1000, July-2017. ISSN: 0976-6359, Indexed in Scopus.

32. G.V.S.S. Sharma, P. Srinivasa Rao, B. Surendra Babu, “ Process capability improvement

through DMAIC for aluminum alloy wheel machining”, Journal Of Industrial Engineering

International, Published online on 24th July, 2017. ISSN: 2251-712X, Indexed in Scopus.

33. G.V.S.S. Sharma, M. V. A. Raju Bahubalendruni, “An Automated Computer Aided Procedure for Exploded View Generation”, International Journal of Performability Engineering, Volume.13, No.4, pp-390-399, July, 2017. Indexed in Scopus.

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35. P. Govinda Rao, P. Srinivasa Rao, B.B.V.L. Deepak, “ GRNN- Immune based Strategy for

estimating and optimizing the vibratory assisted welding parameters to produce quality welded

joints”, Engineering Journal, Volume.21, Issue.03, PP- 251-267, July, 2017. ISSN: 0125-8281.

Indexed in Scopus and ESCI.

36. P.N.L. Pavani, C.L.V.R.S.V. Prasad, K. Ramji, “ Experimental Study & Optimization of Machining

Parameters in Turning of AISI 1040 Steel with Micro-grooved WC Cutting Tools”, Engineering

Journal, Volume.21, Issue.04, PP- 155-169, July, 2017. ISSN: 0125-8281. Indexed in Scopus and

ESCI.

37. S. Rajesh Kumar, P. Sai Chaitanya “Impact of Emulsification of Bio Diesel Blends on a Diesel

Engine- A Recent Review”, International Journal for Research in Applied Science & Engineering

Technology, Volume.5, Issue No-6, pp- 07-12, 2017. ISSN 2321-9653, Indexed in Google Scholar.

38. Chiranjeeva Rao Seela, K. Sathi Reddy, N.Ramesh “Analysis of turbocharged DI Diesel Engine

Fuelled with Linseed Methyl Ester”, International Journal of Applied Environmental Sciences,

Volume.12, Issue No-6, pp- 1159-1166, 2017. ISSN 0973-6077, Indexed in Google Scholar.

39. B.B.V.L Deepak, M.V.A. Raju Bahubalendruni “Numerical analysis for force distribution along the

swing jaw plate of a single toggle jaw crusher”, World Journal of Engineering, Volume.14,Issue

No-3, pp- 255-460, 2017. ISSN 1708-5284, Indexed in Scopus, ESCI.

40. B.B.V.L Deepak, M.V.A. Raju Bahubalendruni “Development of a Path Follower in Real Time

Environment”, World Journal of Engineering, Published online first. ISSN 1708-5284, Indexed in

Scopus, ESCI.

41. D. Venkata Rao, A. Lakshumu Naidu, Srinivas Kona, “Design and Simulations of Walk Link”,

International Journal of Engineering Trends and Technology, Volume-47, No- 8, May 2017. ISSN:

2231-5381, Indexed in Google Scholar.

42. V. Rambabu, P. Sai Chaitanya, K. Prasad Rao, “Investigation on Performance of diesel engine

using Al2O3 nanofluid as coolant”, Advances in Science and Technology Research Journal,

Volume-11 Issue-2, PP- 58-64, June-2017. ISSN: 2299-8624, Indexed in ESCI.

43. M Srinivasa Rao, N Venkatesh, A Lakshumu Naidu, “A Review on Performance of Diesel Engines by

using Biodiesel blends from Different oils”, International Journal for Research and Development in

Technology, Volume- 7, Issue No-6, pp- 135-143, June-2017. ISSN: 2349-3585, Indexed in Google

Scholar.

44. A Lakshumu Naidu, PSV Ramana Rao, “A Review on Chemical Properties of Biodiesel from Sorghum

Oils”, International Journal of Chemtech Research, Volume- 10, No-3, pp- 156-161, 2017. ISSN:

0974-4290, Indexed in Scopus.

45. B Venkata Suresh, P Govinda Rao, G Musalaiah, P Srinivasa Rao, “Influence of Vibratory Weld

Conditioning on Hardness of Lap Welded Joints”, International Journal of Mechanical Engineering

and Technology, Volume- 8, Issue -1, pp- 169-177, January 2017. ISSN: 0976 – 6340, Indexed in

Scopus.

46. G Musalaiah , B Venkata Suresh, P Govinda Rao, P Srinivasa Rao, “Shear Strength Enhancement in Vibratory Lap Welded Joints”, International Journal of Mechanical Engineering and Technology, Volume- 8, Issue -1, pp- 160-168, January 2017. ISSN: 0976 – 6340, Indexed in Scopus.

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47. P.N.L. Pavani, R. Pola Rao, C.L.V.R.S.V. Prasasd, “Synthesis And Experimental Investigation

Of Tribological Performance Of A Blended (Palm And Mahua) Bio-Lubricant Using The Taguchi

Design Of Experiment (Doe)”, International Journal of Technology, Volume.8, No-3, pp- 418-

427, 2017. ISSN 2086-9614, Indexed in Scopus, Impact Factor: 0.123 (SJR).

48. P.N.L. Pavani, R. Pola Rao, K. Santa Rao, “Performance Assessment and Mathematical

Modeling of Process Parameters in Electrical Discharge Machining of EN-31 Tool Steel Material

Using Taguchi DOE”, Engineering Journal, Volume.21, Issue-2, pp- 227-236, March-2017. ISSN

0125-8281, Indexed in ECSI & Scopus, Impact Factor: 0.23 (SJR).

49. M. Vykunta Rao, P. Srinivasa Rao, B. Surendra Babu, “ Vibration Effect on the Impact

strength of Al 5052-H32 Weldments”, Journal of Mechanical Engineering Research and

Developments, Volume.40, Number.01, pp-311-316, 2017. ISSN: 1024-1752, Indexed in

Scopus.

50. V. Chitti Babu, K. Santa Rao, P. Govinda Rao, M.V.S. Babu, “Evaluation of Stress Intensity Factors of Different Materials: A Finite Element Approach”, International Journal of Chemical

Sciences, Volume-14, Issue-4, pp- 1886-1892, 2016. ISSN 0972-768X, Indexed in Scopus.

New Recruits

Mr. G. Sasidhar Mr. D.Sreenuvasu Naidu Asst.Professor, Asst.Professor Dept.of Mechanical Engg., Dept.of Mechanical Engg., Joined in GMRIT on 11.06.2018. Joined in GMRIT on 29.05.2018.