Dhinakar Annadurai Mechanical Engineering, Mathematics, Scripting
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TAMIL NADU GOVERNEMENT NAN MUDHALVAN TRAINING PARTNER IN HANDLING SUBJECT HYPERMESH, ADDITIVE MANUFACTURING, REVERSE ENGINEERING, SOLIDWORKS
PUBLICATIONS:
a. “Uniaxial Compression Properties and Compression Fatigue Performance of Selective Laser
Melted Ti6Al4V Cellular Structure”, Metals and Materials International, 2021.
b. “Air permeability of Maraging Steel Cellular Parts made by Selective Laser Melting”,
Materials, 2021.
c. “Iron Reduction in 356 Secondary Aluminum Alloy by Mn and Cr Addition for Sediment
Separation”, International Journal of Metal Casting, 2020.
d. “Behavior of Graphite Reinforced Magnesium Matrix Composites Against Sliding Wear and
Friction”, International Journal Applied Engineering and Research, 2015.

SKILLS:
• CAD & Simulation: SolidWorks, ANSYS Workbench, LS-DYNA, HyperMesh
• Manufacturing: Additive Manufacturing, Powder Metallurgy, FRP Compression Molding,
and Vacuum Bagging Method
• Material Testing: SEM, XRD, Composite Materials Analysis
• Programming: Python (NumPy, Pandas), MATLAB Simulink
• Product Design & Innovation: Prototyping, Literature Survey, and Budgeting

ACHIEVEMENTS:
• Winner – MSME India Hackathon (₹15L grant)
• Patent Holder – Brake Shoe Liner Painting Machine, MuscleFlexPro
• Multiple funded collaborations with industries and academia

Subjects

CATIA Beginner-Intermediate
Material Science and Manufacturing Processes Beginner-Expert
LS-PrePost Beginner-Intermediate
Altair HyperMesh and HyperWorks Beginner-Intermediate
SolidWorks 3D Modeling Beginner-Intermediate

Experience

TANCAM (Aug, 2025–Present) at Design Engineer
SENIOR DESIGN ENGINEER (Feb, 2022–Aug, 2025) at Dr. M.G.R education and research institute university Chennai
TEMPORARY FACULTY (Jul, 2014–Jun, 2017) at NATIONAL INSTITUTE OF TECHNOLOGY TIRUCHIRAPALLI TAMILNADU

TEACHING MENTORING

Education

MATERIAL SCIENCE AND ENGINEERING (Sep, 2017–Dec, 2022) from National Taipei University of Technology, Taiwan
APPLIED MATERIAL SCIENCE (Sep, 2017–now) from NTUT, TAIPEI
M.TECH (Jun, 2012–Jun, 2014) from SASTRA University, Tamil Nadu

Fee details

₹250–1,500/hour (US$2.63–15.79/hour)

BASED ON STUDENT REQUIREMENT

Courses offered

MATERIAL SCIENCE AND ENGINEERING
- ₹7500
- Duration: 45 Hours
- Delivery mode: Online
- Group size: Individual
- Instruction language: English
- Certificate provided: No
Structure & Bonding: Atomic bonding, crystal structures, and imperfections in solids.Properties Analysis: Examination of mechanical (stress, strain, strength), electrical (conductivity, semiconductors), thermal, and optical properties.Materials Processing: Techniques for manufacturing, heat treatment, and shaping materials, including casting, annealing, and processing of nanomaterials.Materials Characterization: Techniques used to analyze and test materials, such as microscopy, spectroscopy, and X-ray diffraction.Phase Transformations: Understanding phase diagrams and how materials change internal structure under different conditions
ENGINEERING MECHANICS
- ₹7500
- Duration: 45 Hours
- Delivery mode: Online
- Group size: Individual
- Instruction language: English
- Certificate provided: No
Statics: Study of bodies at rest, focusing on free-body diagrams, equilibrium, forces, friction, trusses, and structural analysis.Dynamics: Study of bodies in motion, including kinematics (1D/2D motion) and kinetics (forces causing motion), impulse, and momentum.Fundamental Concepts: Rigid body assumption, moments, couples, centroids, and moment of inertia.Applications: Analyzing forces in machinery, beams, cranes, and structural supports
STRENGTH OF MATERIALS
- ₹8000
- Duration: 45 Hours
- Delivery mode: Online
- Group size: Individual
- Instruction language: English
- Certificate provided: No
Stresses and Strains: Fundamental concepts of internal forces and deformation, including Hooke's Law, Poisson’s ratio, and stress-strain diagrams for materials like steel.Beam Analysis: Calculation of shear forces and bending moments (SFD/BMD), as well as beam deflection.Torsion: Analysis of circular shafts under twisting moments.Combined Loadings: Analysis of complex stress states, such as pressure vessels, thin-walled structures, and combined bending and torsion.Failure Theories: Understanding how materials fail (yielding or fracture) to select appropriate materials and design safe components.