Zed-MTech is a leading provider of educational training services specializing in CAD/CAM, CAE/FEA software, and management training. With a commitment to empowering individuals and organizations with essential skills for success in today's competitive landscape, we offer a comprehensive range of training programs tailored to meet diverse learning needs.
At Zed-MTech, we recognize the pivotal role that advanced software proficiency and effective management practices play in driving innovation and productivity. Our team of experienced instructors, industry professionals, and certified trainers deliver dynamic and interactive training experiences that equip participants with the knowledge and tools needed to excel in their fields.
CAD/CAM Training:
Dive into the world of computer-aided design (CAD) and computer-aided manufacturing (CAM) with our specialized training courses. Whether you're a novice or seasoned professional, our curriculum covers fundamental principles, advanced modeling techniques, and best practices for optimizing design and manufacturing processes.
CAE/FEA Training:
Master the intricacies of computer-aided engineering (CAE) and finite element analysis (FEA) software through our hands-on training programs. Learn how to simulate and analyze structural, thermal, and fluid dynamics behavior, enabling you to make informed design decisions and improve product performance.
Software Training:
Software training in CAD/CAM (Computer-Aided Design/Computer-Aided Manufacturing) and CFD/FEA (Computational Fluid Dynamics/Finite Element Analysis) provides comprehensive instruction in utilizing these advanced tools for design, analysis, and simulation. Participants learn essential skills, best practices, and practical applications through expert-led courses, hands-on exercises, and customized curricula. With a focus on enhancing design efficiency, optimizing product performance, and solving complex engineering challenges, these training services empower individuals and organizations to stay competitive and innovative in their respective industries.
CAD/CAM Software Training
Course Module
Our course modules offer a well-rounded curriculum, combining theoretical foundations with hands-on training, ensuring students acquire industry-relevant skills and knowledge for future endeavors.
Course A
Course B
Software Training :
Duration :
Classes :
Course Module :
SolidWorks
1.5 Month
Online + Physical
You learn different
Software Training :
Duration :
Classes :
Course Module :
SolidWorks
1.5 Month
Online + Physical
You learn different
module which can be covered in this course.
module which can be covered in this course.
Module 1 :
Introduction to SolidWorks:
- Overview of SolidWorks software and its applications in engineering and design.
- Introduction to the user interface, navigation tools, and basic features.
Module 2 :
Sketching:
- Fundamentals of 2D sketching: lines, arcs, circles, rectangles, etc.
- Techniques for creating and editing sketches.
- Constraints and dimensions to define sketch geometry.
Module 3 :
Part Modeling:
- Creating 3D models from sketches: extrusions, revolves, sweeps, and lofts.
- Advanced modeling features: fillets, chamfers, shells, patterns, etc.
- Best practices for efficient part modeling.
Module 4 :
Assembly Design:
- Introduction to assembly design principles.
- Inserting parts into assemblies and defining relationships.
- Mate constraints to position and align components within assemblies.
Module 5:
Drawing and Detailing:
- Generating 2D drawings from 3D models.
- Adding dimensions, annotations, and tolerances to drawings.
- Creating bill of materials (BOM) and other manufacturing documentation.
Module 6:
Advanced Topics:
- Surfacing: creating complex shapes using surface modeling techniques.
- Sheet metal design: modeling sheet metal components and creating flat patterns.
- Weldments: designing welded structures using specialized tools.
Module 7:
Simulation and Analysis:
- Introduction to SolidWorks Simulation for structural analysis.
- Basic finite element analysis (FEA) concepts and simulation setup.
- Interpreting simulation results and optimizing designs based on analysis data.
Module 1 :
Introduction to AutoCAD:
- Overview of AutoCAD and its significance in engineering, architecture, and design industries.
- Understanding the user interface, tool palettes, and workspace customization options.
Module 2 :
Drawing Fundamentals:
- Basic drawing commands: line, circle, arc, rectangle, polygon, etc.
- Techniques for precise drawing using object snaps, polar tracking, and ortho modes.
- Editing commands: move, copy, rotate, scale, trim, extend, fillet, chamfer, etc.
Module 3 :
Layer Management:
- Importance of layers in organizing and managing drawing elements.
- Creating, renaming, and assigning properties to layers.
- Layer states management and layer filters.
Module 4 :
Dimensioning and Annotation:
- Adding dimensions to drawings: linear, aligned, radial, diameter, etc.
- Configuring dimension styles and settings.
- Inserting text annotations and creating custom text styles.
Module 5:
Advanced Drawing Tools:
- Creating complex shapes using advanced drawing tools: spline, ellipse, polyline, etc.
- Blocks and attributes: creating reusable block definitions and adding attribute data.
- Hatch patterns and gradients for filling enclosed areas.
Module 6:
Editing and Modifying Techniques:
- Advanced editing commands: stretch, offset, array, mirror, break, join, etc.
- Grips editing for quick manipulation of objects.
- Using grips editing for quick manipulation of objects.
Module 7:
Layouts and Plotting:
- Working with layout tabs for creating multiple views of the drawing.
- Setting up viewports and viewport configurations.
- Plotting and printing drawings to scale or specific paper sizes.
Course C
Course D
Software Training :
Duration :
Classes :
Course Module :
Ansys
2 Month
Online + Physical
You learn different
Software Training :
Duration :
Classes :
Course Module :
Star CCM +
2 Month
Online + Physical
You learn different
module which can be covered in this course.
module which can be covered in this course.
Module 1 :
Introduction to ANSYS:
- Overview of ANSYS software and its applications in engineering analysis.
- Brief introduction to finite element analysis (FEA) and computational fluid dynamics (CFD).
Module 2 :
Basic Workflow:
- Understanding the ANSYS graphical user interface (GUI).
- Overview of the simulation workflow: geometry, meshing, setup, solve, and post-processing.
Module 3 :
Geometry Import and Preparation:
- Importing or creating geometry within ANSYS.
- Simplifying geometry and preparing it for analysis.
Module 4 :
Mesh Generation:
- Introduction to meshing techniques and best practices.
- Generating a mesh suitable for analysis.
Module 5:
Static Structural Analysis:
- Setting up and solving a static structural analysis.
- Applying boundary conditions (constraints and loads) and material properties.
- Analyzing basic results such as stress and deformation.
Module 6:
Transient Dynamics:
- Introduction to transient dynamics analysis and its applications.
- Setting up and solving a transient dynamic simulation.
- Analyzing time-varying responses.
Module 7:
Fluid Flow Analysis:
- Introduction to computational fluid dynamics (CFD).
- Setting up and solving a basic fluid flow simulation using ANSYS Fluent or CFX.
- Analyzing flow characteristics.
Module 1 :
Introduction to STAR-CCM+:
- Overview of STAR-CCM+ software and its applications in fluid flow analysis.
- Brief introduction to computational fluid dynamics (CFD) and its importance in engineering.
Module 2 :
Basic Workflow:
- Understanding the STAR-CCM+ graphical user interface (GUI).
- Overview of the simulation workflow: geometry setup, meshing, setup, solve, and post-processing.
Module 3 :
Geometry Import and Preparation:
- Importing or creating geometry within STAR-CCM+.
- Simplifying geometry and preparing it for analysis.
Module 4 :
Mesh Generation:
- Introduction to meshing techniques and best practices.
- Generating a mesh suitable for CFD analysis.
Module 5 :
Setup and Boundary Conditions:
- Setting up simulation parameters and physics models.
- Defining boundary conditions such as inlet velocity, outlet pressure, and wall conditions.
Module 6:
Solver Setup and Execution:
- Configuring solver settings for the desired physics and accuracy.
- Executing the simulation and monitoring convergence.
Module 7:
Projects and Hands-on Exercises:
- Short CFD projects or case studies to apply STAR-CCM+ skills.
- Simulation exercises to reinforce learning and demonstrate proficiency.