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Mechanical CADD

Concept Sketching
3D Modeling
Prototyping & Performance Analysis

Mechanical engineers design, analyze and help manufacture mechanical tools, engines, and machines. They are employed in almost all manufacturing sectors including Heavy machineries, ship building, aerospace and automobile. By Learning Mechanical CADD they are also employed in engineering services and product design companies. They carry out a wide range of design and analysis activities, in the product development lifecycle.

Their key tasks include: Concept Sketching, 2D Design & Drafting, 3D Modeling, Prototyping and Performance & Safety Analysis.

Role in the industry

Mechanical engineers who have CAD skills are employed in manufacturing industries including automobiles, aeronautical, engineering, heavy industries, locomotives and marine. Learning CAD software is important because almost all of these jobs (and more) are performed with sophisticated CAD software that guarantees speed, accuracy and reuse of work. With CAD skills, mechanical engineers can find employment and increase productivity.

Courses

We have courses for each level of expertise or even beginners. If you’re starting out in learning CADD or are familiar with it and know it on some levels, then you’re lucky, we have structured and customised courses as well.
AUTOCAD

Overview

AutoCAD has widely used CAD software and is used in almost all the engineering fields, Drafting, annotation and design of 2D Geometry and 3D Models with solids, surfaces and mesh objects, Design faster with an industry-specific tool set, Automate tasks such as comparing drawings, adding blocks, creating schedules and more you will learn all basic and advanced skills needed for mechanical engineering. This is most important software in learning Mechanical CADD.

Prerequisites

AutoCAD mechanical course is designed for beginners and helps CAD Professionals improve their skill sets, Basic Understanding of Engineering design, and formal Education(ITI/Diploma/ Degree)in a relevant engineering stream.

Course Objective

This course covers all the fundamental skills necessary for effectivity using AutoCAD and will provide a strong foundation for advancement. The course will teach you in detail how to use AutoCAD as a tool for drafting and design.

Key Contents

Introduction to engineering drawing & AutoCAD
Drawing basic geometry shapes in AutoCAD
Modifying drawing in AutoCAD
Layer Management
Hatching and gradient technics
Dimensioning and Tolerancing
Parametric drawing
Blocks and attributes
Plots and Publish
Isometric drawing
Blocks and attributes
External reference (Xref) concepts
Plots and Publish
3D Modeling
Advance drawing using AutoCAD Mechanical
Mechanical features drawing
Drawing assemblies

Duration

80 hours

CATIA

Overview

CATIA V5 is one of the most powerful Computer Aided Three Dimensional applications for parametric solid modelling developed by Dassault Systems. With 3D sketching and visualization features It helps users to create high-quality mechanical products. CATIA is extensively used in the aerospace industry and the automotive industry. So for CATIA, all these projects will be completed through CATIA for aerospace parts and their analysis, automotive parts and plastics.

Prerequisites

Basic understanding of engineering design and Mechanical CADD. Leaners from Mechanical, production, automobile and aerospace are most suited for this program. Aspiring and working professionals looking for upgrading their 3D design and solid modelling skills can take up this program.

Course Objective

Being a Certified Educational Partner (CEP) of Dassault Systemes our CATIA program is structured in a pedagogical sequence, covering Part, Assembly, Drawing, Wireframe & Surfaces and Generative Sheet metal Design workbenches. Every session provides with a detailed explanation of the commands and tools in CATIA V5. This approach allows the user to understand and use the tool in an efficient manner.

Key Contents

CATIA user interface
Creating and editing sketches
Creating sketch-based features
Creating transformation features
Creating dress-up features
Creating advanced replication tools
Assembly design
Editing parts in an assembly
Creating surface-based features
Generative sheet metal design
Drawing view generation
Bill of materials, balloons
Finalizing the drawing and printing
Dress up on 2D Views
Real me rendering

Duration

80 hours

CREO

Overview

“Creo” is one of the most widely used 3D CAD tools in the industry. Creo is a widely used 3D CAD software tool that transports all tasks involved in product development using diverse tools, with the participation of people of a variety of skills, from different geographical locations. Advantages of Creo over other 3D solutions include a faster time-to-market, product quality, design efficiency; minimum errors, and less scrap and rework.

Prerequisites

Basic understanding of engineering design Mechanical CADD. Leaners from Mechanical, production, automobile and aerospace are most suited for this program. Aspiring and working professionals looking for upgrading their 3D design and solid modelling skills can take up this program.

Course Objective

“Creo” offers wide range of scalabe software solutions for product development today. Role based toolset for every role helps in participation and collaboration of everyone at every stage of product development cycle. It provides the right toolset for each role to participate and join in the process of product development during all the stages – from CAD users like managers, and marketing specialists to engineers, professionals, and many others.

Key Contents

Introduction to Creo Parametric
Understanding Solid Modeling Concepts
Understanding Feature-Based Concepts
Understanding the Ribbon Interface
Managing Files in Creo ParametricCreating Sketcher Geometry
PART DESIGN
Creating Datum and Axes Procedure
Assembling with Constraints
Creating New Assembly Models Procedure:
Understanding Assembly Constraint Status
Introduction to Surfacing
Surface Modeling Paradigms
Creo Parametric Sheetmetal Design Process
Adding Other Sheetmetal Features
Introduction, Creating New Drawing &
Drawing
Views and other tools

Duration

80 hours

GD & T

Overview

Engineering drawings not only need to communicate precisely, they also need to be correct. A drawing error can impact money, me, material and customer satisfaction if not detected and corrected early. Dimensioning and tolerancing standards ensure common rules and conventions are followed for specifying dimensions and tolerances. There are two major Dimensioning and Tolerancing used around the world. The ASME standard published by the American Society of Mechanical Engineers is predominately used in US and many other countries. Second one is ISO standards, published by International Organization of standards. Geometric Dimensioning and Tolerancing or GD&T is an symbolic language used in defining the geometry of mechanical parts. It comprises dimensions, symbols, definitions, rules, and conventions which illustrates the functional requirements of each feature of the design model. Precisely, GD & T is the exact language that helps mechanical engineers, fabricators, and designers to communicate regarding the design model.

Prerequisites

This course is suitable for beginner and aspiring professionals with little or no experience in Mechanical Cad. Also, it is recommended for anyone who has a passion for a career in designing. GD&T facilitates and simplifies gaging requirement. As “GD&T” is widely used in drawings, it is a must learn for anyone looking for a career in Design.

Course Objective

The course will help students and professionals understand the fundamentals of the “GD&T” language and learn how to incorporate the same in a drawing. This will guide students to comprehend Geometric Tolerancing and will assist them in becoming a certified “GD&T” associate.

Key Contents

Dimensions and drawings
Tolerance dimensioning
Ways of expressing tolerance
IT grades
Introduction to “ASME Y14.5M-1994”
GD & T rules
Geometrical symbols
Tolerance types
Maximum Material Condition of a feature of size
Least Material Condition of a feature of size
Concept of bonus tolerance
Planar datums
Modifiers and symbols

Duration

20 hours

NX CADD
Overview

The UG-NX is a high-end advanced CAD, CAE, and CAM product life cycle management software solution from Siemens. Manufacturing companies across multiple industries use “NX CAD” due to its sophisticated design capabilities and proven strengths in significantly reducing design me. The integrated software solution covers all aspects of product development process streamline and increase product development process. “NX CAD” makes the design process come to life for the automotive industry by reducing design me substantially. “NX CAD” supports modeling of both complex surfaces and solid models, and has more advanced freeform modeling capabilities.

Prerequisites

Basic understanding engineering design. Leaners from Mechanical, production, automobile and aerospace are most suited for this program. Aspiring and working professionals looking for upgrading their 3D design and solid modelling skills can take up this program.

Course Objective

The NX CAD course provides an outline of the current Body in White (BIW) component design factors and detailed explanations about their significance to part function, cost, and reliability. In this course, the modern design methodology is examined, covering Design for Manufacturing and Assembly and how determining product end-use requirements is essential to creating successful contemporary products. The program covers a range of content that will let the candidates gain expertise in development of part manufacturing.

Key Contents

User interface
Sketcher essentials
Constraining sketches
Datums
Creating part features
Editing parts
Editing Curves
Editing freeform features
Creating assembly constrains
Positioning assembly component
Basic assembly concept
Creating fundamental curves
Assembly revision and component replacement
Assembly sequencing
Assemblies-clearance and analysis
Deformable components
Part families
Introduction to drawing
Drafting and View
Creating dimensions notes and labels
Plotting drawings

Duration

60 hours

HYPERMESH

Overview

“HyperMesh” is the market-leading, multi-disciplinary finite element pre-processor which manages the generation of the largest, most complex models, starting with the import of Mechanical CADD geometry to exporting a ready-to-run solver file. “HyperMesh” supports a wide variety of CAD and solver interfaces, making it a perfect solution for most industry verticals and domains. With its advanced geometry and meshing capabilities, “HyperMesh” provides an environment for rapid model generation. Generating high-quality mesh quickly is just one of HyperMesh’s core competencies.

Prerequisites

This course is suitable for beginner and aspiring professionals with little or no experience in Mechanical CADD. Also, it is highly recommended for anyone who has a passion for a career in designing or Analysis.

Course Objective

“Hypermesh” training program helps students to work on CAE (Computer-Aided Engineering)
simulations software platform. This course will enable the students to create finite element models for analysis and make high-quality meshes in an efficient manner. This course will also cover the skills that are needed to work with geometry editing tools for design CAD models for the meshing process.

Key Contents

Getting Started with “HyperMesh”
Working with Panels
Importing and Repairing CAD
Generating a Midsurface
Auto-Midsurfacing with Advanced
Geometry and Mesh Editing Using the Quick Edit
Panel
Creating 1-D Elements
AutoMeshing
3D Element
Creating a Hexahedral Mesh using the Solid Map
Checking and Editing Mesh
Analysis Setup
Formatting Model for Analysis
Obtaining and Assigning Beam Cross-Section
Properties using HyperBeam
Free Body Diagram.
Working with Loads on Geometry

Duration

80 hours

REVIT MEP

Overview

“Revit MEP” is part of Autodesk’s BIM (Building Information Modelling) software portfolio and is designed for mechanical, electrical and plumbing engineers working either in isolation or as part of a BIM project. Autodesk “Revit MEP” is a very popular software solution that is used for designing complex building systems. Revit is a BIM-compliant software, which can provide precise design, analysis, and documentation for an efficient building systems from concept through construction. It helps in designing information-rich models throughout the building lifecycle.

Prerequisites

The training course introduces the fundamental skills in learning the Autodesk “Revit MEP” software. It is highly recommended for those having experience and knowledge in MEP Engineering and its terminology, as well as an understanding of the essentials of basic MS-Windows use.

Course Objective

The primary objective of this Mechanical CADD course is to teach leaners the concepts of building information modelling and introduce the tools for parametric engineering design and documentation using Revit MEP. This course covers the basics of building information modelling and the tools for parametric MEP systems design and documentation. You will learn the fundamental features of Revit MEP, and then progress through schematic design, system analysis and construction documentation before finishing with design visualization.

Key Contents

Introduction
MEP Design
“Revit MEP”
Work Sharing
Family Creation
Solid Modeling
Key Contents
Light Fixture
Equipment
Devices
HVAC Design
Heating and Cooling Load Analysis
Logical System and Duct Work
Mechanical piping System
Inspect System
Electrical Design
Lighting Analysis
Power and Communication Design
Plumbing Design
Fire Protection System
Schedules
Printing.

Duration

80 hours

SOLID WORKS

Overview

“SOLIDWORKS” solutions cover all aspects of product development process with a seamless, integrated workflow: design, verification, sustainable design, communication and data management. Companies can Shorten the design cycle, increase productivity and deliver innovative products to market faster. SolidWorks offers complete 3D CAD software tools that allow you to create, simulate, publish, and manage your data “SOLIDWORKS” is being used by Designers and Engineers across the world and across a range of industry sectors to create innovative products. Solid work is the best Mechanical CADD with placement in bangalore

Prerequisites

Basic understanding of engineering design. Leaners from Mechanical, production, automobile, and aerospace are most suited for this program. Aspiring and working professionals looking for upgrading their 3D design and solid modelling skills can take up this program.

Course Objective

3D modeling offers many advantages over traditional 2D design. This course aims to give students and professionals the essentials that is needed to become a certified “SOLIDWORKS” associate. The course will help leaners use the software with confidence and enable them to take ideas and concepts and turn them into products. EduCADD’s “SolidWorks” program will equip leaners to understand and use the tool in an efficient manner and offers the best preparation to become an Engineer of the Future. 

Key Contents

Sketcher basics
3D sketching
Part modeling
Creating reference geometries
Editing features
Advanced modeling tools
Configuration
Design table/library features
Import/Export of files
Surface modeling
Boom-up assembly design
Top-down assembly design
Exploding assemblies
Simulation/ Detailing
BOM, balloon tools
Sheet metal design.

Duration

80 hours

ANSYS

Overview

ANSYS Mechanical, is a finite element analysis tool widely used for the analysis and solving of complex mechanical problems. Ansys is capable of predicting the behavior of components in the manufacturing industry and real-world environments. This allows engineers and designers to virtually analyze how their products and components in them work in real-world environment, at an early stage of product design. ANSYS software is being used across a wide range of industries to analyze and understand the stability, durability, and compatibility of the product in the real world.

Prerequisites

Certification program in “ANSYS” will empower students to be part of the industry and enable them to produce beer products. Our highly skilled mentors will extend their expertise to meet students learning and course requirements. This course is suitable for beginners with good knowledge on FEM and for aspiring professionals with little or no experience. Also, it is highly recommended for anyone who has a passion for a career in designing or Analysis.

Course Objective

“ANSYS” training course aims to explain the basics of ANSYS and Mechanical CADD, Finite Element Modeling (FEM) and Finite Element Analysis (FEA). The course covers pre-processor, solution, and postprocessor and also explain ways to conduct advanced structural analysis.

Key Contents

Basic Concepts
The Toolbar
The Project Schematic
Static structural analysis
Beams and Frames
Treatment of Distributed Loads
Modeling of 2-D Elasticity Problems
Buckling analysis
Mode analysis
Steady state Thermal analysis
Introduction of Fluid Analysis( CFX and CFD)
Modeling of Fluid Flow
Fluid Domain
Meshing
Boundary Conditions
Result view

Duration

80 hours

FUSION 360

Overview

“Fusion 360” is a relatively new cloud-based 3D CAD, CAM, and CAE platform for product development offered by Autodesk. It combines industrial and mechanical design, simulation, collaboration, and machining in a single package. The tools in “Fusion 360” enable fast and easy exploration of design ideas with an integrated concept-to-production toolset. The cloud based solution which runs on Mac and PCs covers the entire product development process till manufacturing.

Prerequisites

No previous CAD experience is necessary. The training course introduces the fundamental skills in learning the Autodesk “Fusion 360” software. Experience with the Windows operating system and a background in drawing 3D parts is recommended.

Course Objective

Autodesk “Fusion 360” 3D CAD software offers an easy-to-use set of tools for 3D mechanical design, engineering and simulation, CAM, and team collaboration. In this course, you will acquire the knowledge needed to complete the process of designing models from conceptual sketching, through to solid modelling, assembly design and drawing production Generative Design is a design process that uses the power of cloud computing to explore multiple permutations, generating alternatives, testing, and learning from each iteration.

Key Contents

Getting started in Mechanical CADD
The “Autodesk Fusion 360” Screen Layout
Parametric Modeling Fundamentals
Orthographic vs. Perspective
Constructive Solid Geometry Concepts
Model History Tree
Creating a CUT Feature
Creating the Next Solid Feature
Create a 2D Sketch
Parametric Constraints Fundamentals
CONSTRAINTS and RELATIONS
Geometric Construction Tools
Parent/Child Relationships and the BORN
Technique
Part Drawings and Associative Functionality
Datum Features and Auxiliary Views
Introduction to 3D Printing
Symmetrical Features in Designs
Advanced 3D Construction Tools
Assembly Modeling – Joint & Animation
Autodesk Fusion 360 Bodies and Components

Duration

60 hours

NX CAM

Overview

NX CAM provide s comprehensive and integrated NC programming capabilities in a single system. From 2.5 – axis machining and mold manufacturing, to simultaneous 5-axis milling and high-volume production, NX offers one CAM software instead of the traditional machine tool programming, processing, and machine simulation and help make parts beer, faster and maximize your return on investment. NX CAM delivers real differences with key capabilities such as advanced programming, post processing, and simulation functionality. NX offers complete set of NC programming capabilities in a single CAM system as an integrated set of manufacturing software applications.

Prerequisites

This course is suitable for beginner with bas knowledge on CAM and for aspiring professionals with little or no experience on mechanical Cadd. Also, it is highly recommended Manufacturing engineers, Tool Designers, Machine/Robots programmers, Administration and for anyone who has a passion for a career in manufacturing.

Course Objective

“NX CAM” Fundamentals is designed to help students with CAM programming productivity as well as CAD modeling and assemblies for manufacturing. The “NX CAM” Fundamentals course will provide professional instruction pertaining to efficient 2 ½ and 3 axis milling CAM programming techniques. This introductory class introduces CAM programming and CAD modeling in the context of real-life scenarios and will include in instructor-LED demonstrations.

Key Contents

The operation navigator
Manufacturing operations and post processing
Wizards and shop documentation
Planar milling –introduction and profiling
Engrave text
Face milling
Cavity milling
Z-level milling
Thread milling
Area milling
Radial cutting
Surface area cutting
Engraving
Contour profiling
Common parameters
Rough and finish turning
Centerline drilling
Groove and thread operations
Multiple spindles and IPW

Duration

80 hours

INVENTOR
Overview

Autodesk Inventor is the worlds best selling 3D modelling and digital prototyping software. It brings mechanical, engineering and product design productivity to new heights and shortens design cycle times. Autodesk Inventor® CAD software provides professional-grade 3D mechanical design, documentation, and product simulation tools. Inventor is extensively used in Machinery, Construction, Higher Education, Automotive, Computer hardware and Software and manufacturing companies across the globe.

Prerequisites

This course is suitable for beginner and aspiring professionals with little or no experience. Also, it is recommended for anyone who has a passion for a career in designing.

Course Objective

EduCADD’s Inventor course aims to help business persons and professionals in utilizing the capabilities of the software effectively. The course intends to render the benefit of the power of 3D modeling and digital prototyping across several disciplines. Production of beer products, reduces the development cost, and fastly bring it to the market. On successful completion of the course, you should be able to prove to potential employers that you’re up to the task by becoming a Certified Professional.

Key Contents

Getting Started
Learning More Basics
Learning to Create a Detail Drawing
Advanced Detail Drawing Procedures
Learning to Edit Existing Solid Models
Designing Part Models for Assembly
Introduction to Assembly View Procedures
Introduction to the Presentation Panel
Introduction to Advanced Commands
Introduction to Creating Threads
Advanced Work Plane Procedures
Introduction to Stress Analysis
Introduction to the Design Accelerator
Introduction to Sheet Metal
Introduction to Weldment
Introduction to the Content Center

Duration

80 hours

ADDITIVE MANUFACTURING
Overview

3D printing is the processes by which the object is created to 3D shaped object with a digital file. 3D printing is used in both rapid prototyping and additive manufacturing. 3D Printing has the potential to revolutionise the way we create physical objects. The technology is making headway into a number of industries and is the future of prototyping. EduCADD envisions this technology to be at the core of school and higher education and an enabler of innovation.

Prerequisites

This course is suitable for beginner with good knowledge on CAD/CAM and for aspiring professionals with little or no experience. Also, it is highly recommended for anyone who has a passion for a career in designing or production.

Course Objective

The objective of this course is to make learners understand additive Manufacturing/3D Printing Technology, Trends, Applications, Opportunities & Design tools used for this breakthrough technology. Course covers the process of Additive Manufacturing (AM) and its applications and Learning & Practicing on Designing Tools and understanding the basic and advanced settings. We also learn about Design Thinking and understanding the importance of Design Thinking in Prototyping. Program covers a hands on project with 3D printer, its settings, operations, installation and basic trouble shooting. By the end of the course leaner will have good understanding of process of prototyping, from design to printing.

Key Contents

Introduction of 3D Printing
Evolution of 3D Printing
About Additive Manufacturing
CAD File formats for 3D print
Stereolithography files
Various Printing technologies (SLA, SLS, FDM,
Poly jet printing, color jet printing, SHS,SLM,LOM,
Multi jet Printing, DLP)
FDM in details
Preparation of print ready file using Plasto 200
Operating Plasto 200- Live Demonstration
STL principles
Object Placement
Print settings
Material properties
Manual Controls
Supports
Project

Duration

30 hours

3D EXPERIENCE
Overview

The 3D EXPERIENCE platform is a simple , unified PLM environment. TECHNIA deliver certified 3D EXPERIENCE training courses for the complete range of CATIA solutions and modules. Our trainers are qualified engineers who use these tools daily within our own engineering business. As a result, our training courses have been developed to suit engineers based on our own experiences!

Prerequisites

This course can be joined by graduate / Undergraduate CATIA 3D Experience Mechanical Designers. A working knowledge of other 2D/3D packages would be advantageous.

Course Objective

It is a starting point for CATIA & the 3D EXPERIENCE platform and the knowledge gained is a prerequisite for many more specialised training courses. CATIA 3D EXPERIENCE Fundamentals should not be viewed as just a basic course, as together with the key CATIA skills that are on offer, the student will also pick up very important advice on engineering methodologies. The course includes a mixture of presentation and tutorial, enabling students to gain hands-on experience.

Key Contents

Introduction to the 3D EXPERIENCE Platform
Creating & constraining sketches
Transformations
Creating basic parameters and formulas in the 3D
Constraining Assemblies
Introduction to the 3D EXPERIENCE Platform
Creating a new PLM Object
Creating Solids using features
Dress-up Features
Creating Assemblies
Drawing

Duration

60 hours

HVAC DESIGN
Overview

HVAC Design Engineering is an application based on Mechanical Engineering principles, which deals with Design, Analysis, Installation, Testing, Commissioning and Maintenance of HVAC System. Industrially, all HVAC activities are performed with the compliance and guidelines of International and Industrial Codes & Standards as well as the laws and regulations of respective local authority. Detail engineering in HVAC projects consists of the engineering, design, detail and layout of whole HVAC system.

Prerequisites

Any mechanical engineering students or electrical students, HVAC design engineers need to have outstanding communication and design skills. Computer-aided design skills are crucial, as are me management and project management skills in order to meet client and company needs promptly and efficiently.

Course Objective

Ed u CADD offering HVAC design engineering Course. For engineering purposes, the definition should also be extended to include the lowest life-cycle cost of conditioning the air by right-sizing of equipment to meet the particular application with the lowest operating and maintenance.

Key Contents

Introduction to HVAC Design
Documents Approvals
Refrigerants
Project Procurement works
Cooling Load estimation
Preparation of Drawings.
Heating Loss estimation
Clean Rooms/ Cold Stores
Air Distribution System.
Ventilation system.
Chilled Water system
Equipment Selection
Erection of Equipments.
Maintenance
Estimation of Projects.

Duration

80 hours

MICROSOFT PROJECT WITH PPM CONCEPTS
Overview

Project Planning & Management comprises of various courses, which includes industry specific Management software that are used by Civil, Mechanical Engineers or Architects for accomplishing preliminary tasks like initiating, planning, executing, monitoring & controlling, and completing the projects within the estimates of schedule, budget, and resources. Project Planning and Management (PPM) is a common management course for all engineering, management or information technology fields.

Prerequisites

The ideal audience for this course include Structural and Project Engineers, Higher-level, more handsoff positions such as project management provide engineers with the opportunity to continue working directly on engineering projects while gaining new skills and, most importantly, offering you the chance to move up in your field.

Course Objective

Learn how to prioritize, plan, manage, and execute projects, programs, and portfolios,
including how to manage capital projects and facilities. offers courses in various combinations and as a stand-alone basis for different software in Project Planning & Management. These courses make a clear picture of the industry standard concepts of project management and also provide hands on experience in handling powerful project management tools.

Key Contents

Project Management Framework
Organization Structure & Project Lifecycle
Project Initiation
Project Planning – 1
Project Planning – 2
Project Execution
Monitoring And Controlling Process Group
Control Risk
Control Procurement
Control Stakeholders Engagement
Closing Process Group
PLC layout
Introduction
Calendar
Task And Its Relationship
Work Breakdown Structure
Constraints & Recurring Task
Define And Assign Resources
Resource Analysis & Leveling
Tracking
Earned Value Analysis
Filters & Groups
Multiple Projects
Customization & Formatting Reports

Duration

60 hours

PRIMAVERA
Overview

Project Planning & Management comprises of various courses, which includes industry specific Management software that are used by Civil, Mechanical Engineers or Architects for accomplishing preliminary tasks like initiating, planning, executing, monitoring & controlling, and completing the projects within the estimates of schedule, budget, and resources. Project Planning and Management (PPM) is a common management course for all engineering, management or information technology fields.

Prerequisites

The ideal audience for this course include Structural and Project Engineers, Higher-level, more handsoff positions such as project management provide engineers with the opportunity to continue working directly on engineering projects while gaining new skills and, most importantly, offering you the chance to move up in your field.

Course Objective

Learn how to prioritize, plan, manage, and execute projects, programs, and portfolios,
including how to manage capital projects and facilities. offers courses in various combinations and as a stand-alone basis for different software in Project Planning & Management. These courses make a clear picture of the industry-standard concepts of project management and also provide hands-on experience in handling powerful project management tools.

Key Contents

Introduction to Primavera
Creating EPS and OBS
Work Breakdown Structure
Budgeting
Adding Activities
Relationship
Resource and Roles
Assigning Resource and Leveling
Baseline
Scheduling
Thresholds, Issues, Risk
Report Setup
Creating Project Website
Export and Import

Duration

60 hours

PROFESSIONAL IN MECHANICAL CADD

Overview

Professional in Mechanical CADD Course is a combination of 2 most commonly used mechanical Design and industrial applications like Creo Parametric, Ansys, SolidWorks, Hypermesh, Inventor, 3D Expernence, NX CAD, Catia, AutoCAD which have all the tools to make any kind of professional designs in 2D and 3D and representations of product designs. Software’s has the ability to design, measure, analyze and visualize in a real- me working environment so that you can create the best industrial product design before manufacturing.
This Course is designed for Mechanical Engineering students, comprehensive bundle of CAD tools/software involving advanced features which includes 2 courses with 160+ hours of classroom training and Lifetime Support.

Prerequisites

Mechanical engineer, designing professional, or students who have interest designing, drafting and finite material analysis can start working on the best tool to frame a career in many designing companies and manufacturing plans as designing engineer.

Target Audience: 

Formal education (diploma/degree) in a relevant engineering stream and anyone serious about learning Design/Manufacturing Course for Mechanical Engineering Students who are interested in learning designing skills mentioned in the curriculum can start the Design
Course for Mechanical Engineering to upskill and understand industrial professional designing for the job. this course for professionals add values to their work and increase job opportunity scope in the industrial market level.

Get Course Counselling Today: 

Get a 1-on-1 demo to understand what is included in the course and how it can benefit you from our counsellor. The demo session will help you to understand the different skills you will learn and employability options available to a student upon the completion of this training program, Which will help you to enroll this course with a clear vision and confidence.

Duration

160 hours

MASTER IN MECHANICAL CADD

Overview

The Masters in Mechanical CADD courses equip students with an entire spectrum of CAD skills using multiple CAD software, cutting across a wide range of popular CAD product suites. Students of Expert courses are trained to meet the immediate job requirements involved in various product design functions.
comprehensive bundle of CAD tools/software involving advanced features which includes 3 or more courses of intensive classroom training exceeding 376 hours and Lifetime Support. Upon completion of the course, students will be able to gain expertise in their fields and take responsibility for delivering final products.
you get Industry recognised certificates for each course with a unique verifiable link. These link can be included in your resume/Linkedin profile to showcase your design skills

Prerequisites

Mechanical engineer, designing professional, or students who have interest designing, drafting and finite material analysis can start working on the best tool to frame a career in many designing companies and manufacturing plans as designing engineer.

Target Audience: 

Formal education (diploma/degree) in a relevant engineering stream and anyone serious about learning Design/Manufacturing Course for Mechanical Engineering Students who are interested in learning designing skills mentioned in the curriculum can start the Design
Course for Mechanical Engineering to upskill and understand industrial professional designing for the job. this course for professionals add values to their work and increase job opportunity scope in the industrial market level.

Get Course Counselling Today: 

Get a 1-on-1 demo to understand what is included in the course and how it can benefit you from our counsellor. The demo session will help you to understand the different skills you will learn and employability options available to a student upon the completion of this training program, Which will help you to enroll this course with a clear vision and confidence.

Duration

376 hours

Educadd gives Mechanical Cad with Placement in Bangalore
Mechanical Cad design helps in getting placement in Bangalore
Educadd gives Mechanical Cad with Placement in Bangalore