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APQP Preview
Course Duration: 15 Min
Overview: This course is an introduction to APQP (advanced product quality planning process).The participant will be able to learn how to deploy APQP in their business process.
Pre-requisite: User should have basic knowledge of manufacturing and product design processes.
Training Method: Instruction Based & Quiz
Course Validity: 3 Months from the date of enrolment.
APQP Preview
Overview: This course is an introduction to APQP (advanced product quality planning process).The participant will be able to learn how to deploy APQP in their business process. Pre-requisite: User should have basic knowledge of manufacturing and product design processes. Training Method: Instruction Based & Quiz Course Validity: 3 Months from the date of enrolment.
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15 Min Free Course
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APQP Process Implementation(C-MEC-AUTNA00-APQ-ENL1)
Recommended Learning Duration: 4 Hrs
Overview: Through this course, the user will be able to learn APQP Process Implementation. On completion of this course, user will be able to:
- Understand the overview of APQP Process Implementation in Automotive and Discrete Manufacturing Domain
- Learn practical orientation towards the real life application of APQP elements
- Differentiate the application of APQP from an OEM, Tier 1/Small and Medium Enterprise Perspective
- Gain insight into the practical application of the Print to PPAP process
- Establish linkages between New Product Development and APQP Process Implementation
Course Structure:
- People aspects for APQP adoption
- Pain points in adopting APQP
- Time bound Sourcing Decisions
- Components of CIR
- CIR Metrics
- Failure Mode and Effect Analysis(FMEA)
- Design FMEA
- Design Review Process
- Expectations in Design Verification Plan
- Prototype Build Control Plan
- Significance of Facilities, Tools and Gauges
- Deliverables of Engineering Prototypes
- Description of Verification Prototype
- Relevance of Drawing and Specifications
- Feasibility of Proposed Design
- Need of Manufacturing Process Flow Charts
- Systematic approach with Process Failure Mode Effect Analysis(PFMEA)
- Expectations in Measurement System Analysis(MSA)
- Pre-launch Control Plan
- Roles in Operator Process Instructions
- Considerations in Packaging Specifications
- Production Control Plan
- Relevance of Preliminary Process Capability Studies
- Production Validation
- Production Part Approval Process(PPAP)
- Part Submission Warrant @MRD
Pre-requisite: User should possess 5 plus years industry experience andhands-on application experience in Supplier Quality Assurance, Quality Engineering, Manufacturing Engineering, Vehicle Engineering in Automotive and Discrete Manufacturing.
Training Method: Virtual Video Learning.
Course Validity : 90 days from the date of enrolment.
Instructor Video Duration: 150 Mins
APQP Process Implementation
Overview: Through this course, the user will be able to learn APQP Process Implementation. On completion of this course, user will be able to: Understand the overview of APQP Process Implementation in Automotive and Discrete Manufacturing DomainLearn practical orientation towards the real life application of APQP elementsDifferentiate the application of APQP from an OEM, Tier 1/Small and Medium Enterprise PerspectiveGain insight into the practical application of the Print to PPAP processEstablish linkages between New Product Development and APQP Process Implementation
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4 Hrs $675
- Understand the overview of APQP Process Implementation in Automotive and Discrete Manufacturing Domain
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Exhaust Systems
Recommended Learning Duration: 2 Hrs
Overview: In this Course, user will learn the insight of Exhaust Systems operation & its component functionality.
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Exhaust Systems
Overview: In this Course, user will learn the insight of Exhaust Systems operation & its component functionality. Pre-requisite: User should be a Mechanical Engineer Training Method: Virtual Video Learning Course Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
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FMEA
Recommended Learning Duration: 2 Hrs
Overview: The user will be able to learn the:
- Design FMEA, Process of FMEA, Preparing for an FMEA
- Failure Modes and Effects Analysis
- FMECA in 8 Steps, Bringing FMEA to Life
- Lean Six Sigma Failure Modes and Effects Analysis FMEA
Pre-requisite: User should be a Mechanical/Civil Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment.
FMEA
Overview: The user will be able to learn the: Design FMEA, Process of FMEA, Preparing for an FMEAFailure Modes and Effects AnalysisFMECA in 8 Steps, Bringing FMEA to LifeLean Six Sigma Failure Modes and Effects Analysis FMEAPre-requisite: User should be a Mechanical/Civil EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment.
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2 Hrs Free Course
- Design FMEA, Process of FMEA, Preparing for an FMEA
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Remote Sensing and GIS
Recommended Learning Duration: 2 Hrs
Overview: The user will be able to:
- Grasp the concept of Remote Sensing and GIS
- Know the types of Sensors and Resolutions
- Understand Visual image Interpretation and Digital Image Processing
- Learn Spatial Data Analysis
- Study the Applications
Pre-requisite: User should be a Civil Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment.
Remote Sensing and GIS
Overview: The user will be able to: Grasp the concept of Remote Sensing and GIS Know the types of Sensors and ResolutionsUnderstand Visual image Interpretation and Digital Image ProcessingLearn Spatial Data Analysis Study the ApplicationsPre-requisite: User should be a Civil EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment.
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2 Hrs Free Course
- Grasp the concept of Remote Sensing and GIS
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Additive Manufacturing
Recommended Learning Duration: 4 Hrs
Overview: By the end of the course, user will learn:
- Additive Manufacturing technologiesss
- Design rules and
- Future adoption
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Additive Manufacturing
Overview: By the end of the course, user will learn: Additive Manufacturing technologiesssDesign rules andFuture adoptionPre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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4 Hrs Free Course
- Additive Manufacturing technologiesss
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Aircraft Composite
Recommended Learning Duration: 2 Hrs
Overview: By the end of this course, the user will learn the basics & applications of Aircraft Composites materials.
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Aircraft Composite
Overview: By the end of this course, the user will learn the basics & applications of Aircraft Composites materials. Pre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
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Aircraft Fasteners Rivets
Recommended Learning Duration: 2 Hrs
Overview: Through this session, the user will learn the:
- Process of installation
- Methods of riveting
- Types of rivets and
- Best practices of riveting technology in aerospace
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Aircraft Fasteners Rivets
Overview: Through this session, the user will learn the: Process of installationMethods of rivetingTypes of rivets andBest practices of riveting technology in aerospacePre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
- Process of installation
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Aircraft Skin Repairs
Recommended Learning Duration: 2 Hrs
Overview: In this course, user will be able to learn the:
- Basic approach to aircraft skin repairs and
- Role of fatigue & damage tolerance
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Aircraft Skin Repairs
Overview: In this course, user will be able to learn the: Basic approach to aircraft skin repairs andRole of fatigue & damage tolerancePre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
- Basic approach to aircraft skin repairs and
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Airframe Aircraft Structure
Recommended Learning Duration: 2 Hrs
Overview: In this course, user will be able to learn the:
- Structural components of aircraft
- Principles of flight and
- Loads on airframe structures
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Airframe Aircraft Structure
Overview: In this course, user will be able to learn the: Structural components of aircraftPrinciples of flight andLoads on airframe structuresPre-requisite: User should be a Mechanical Engineer Training Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
- Structural components of aircraft
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Automotive Chassis Frame
Recommended Learning Duration: 4 Hrs
Overview: In this course, user will learn about Chassis & its component functionality with practical application.
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Automotive Chassis Frame
Overview: In this course, user will learn about Chassis & its component functionality with practical application. Pre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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4 Hrs Free Course
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Structural Analysis-I
Recommended Learning Duration: 6 Hrs
Overview: The user will be able to:
- Compute stresses and strains in any element subjected to loads
- Analyse beams to draw the shear force diagram and bending moment diagram
- Compute the deformation in statically determinate structures
- Analyse cables and three hinged arches
Pre-requisite: User should be a Civil Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment.
Structural Analysis-I
Overview: The user will be able to: Compute stresses and strains in any element subjected to loadsAnalyse beams to draw the shear force diagram and bending moment diagramCompute the deformation in statically determinate structuresAnalyse cables and three hinged arches Pre-requisite: User should be a Civil EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment.
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6 Hrs Free Course
- Compute stresses and strains in any element subjected to loads
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Structural Analysis-II
Recommended Learning Duration: 5 Hrs
Overview: The user will be able to analyse the beams, frames and trusses by
- Force method
- Slope deflection method and
- Moment distribution method and
- Analyse the beams and frames by Matrix displacement method
Pre-requisite: User should be Civil Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Structural Analysis-II
Overview: The user will be able to analyse the beams, frames and trusses by Force methodSlope deflection method andMoment distribution method andAnalyse the beams and frames by Matrix displacement methodPre-requisite: User should be Civil EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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5 Hrs Free Course
- Force method
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Mechanical Sensors Fundamentals
Recommended Learning Duration: 2 Hrs
Overview: The user will be able to:
- Learn the Sensor Technology.
- Know the types of Sensors.
- Know the Sensors used in daily life.
- Visualize the Sensors in Future.
- Understand the use of sensors for Industry Applications.
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment.
Mechanical Sensors Fundamentals
Overview: The user will be able to: Learn the Sensor Technology. Know the types of Sensors.Know the Sensors used in daily life.Visualize the Sensors in Future.Understand the use of sensors for Industry Applications.Pre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment.
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2 Hrs Free Course
- Learn the Sensor Technology.
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Drawing Reading-Kannada
Recommended Learning Duration: 5 Min
Overview: In this Course, user will learn to read & draw the engineering drawing representation.
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Drawing Reading-Kannada
Overview: In this Course, user will learn to read & draw the engineering drawing representation. Pre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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5 Min Free Course
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Smart Manufacturing
Recommended Learning Duration: 2 Hrs
Overview: In this Course, user will learn the:
- Future of manufacturing
- Concept of industry 4.0
- Manufacturing Execution System (MES) and
- Industrial Internet of Things (IIoT)
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Smart Manufacturing
Overview: In this Course, user will learn the: Future of manufacturingConcept of industry 4.0Manufacturing Execution System (MES) andIndustrial Internet of Things (IIoT)Pre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
- Future of manufacturing
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Finite Elements Methods
Recommended Learning Duration: 4 Hrs
Overview: In this Course, user will be learning the:
- Basics & application of FEA and
- Engineering behind the FEA Concept
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Finite Elements Methods
Overview: In this Course, user will be learning the: Basics & application of FEA andEngineering behind the FEA ConceptPre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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4 Hrs Free Course
- Basics & application of FEA and
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Vehicle Dynamics
Recommended Learning Duration: 4 Hrs
Overview: In this Course, user will be learning the:
- Science of Driving
- Vehicle Dynamics Control
- Aerodynamic Study
- Suspension & Steering Control
- Breaking System and
- A few Case Studies
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Vehicle Dynamics
Overview: In this Course, user will be learning the: Science of DrivingVehicle Dynamics ControlAerodynamic StudySuspension & Steering ControlBreaking System andA few Case StudiesPre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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4 Hrs Free Course
- Science of Driving
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GD&T
Recommended Learning Duration: 2 Hrs
Overview: In this Course, user will be learning to represent Geometrical Dimension & Tolerance in engineering drawing.
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
GD&T
Overview: In this Course, user will be learning to represent Geometrical Dimension & Tolerance in engineering drawing. Pre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
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Intro to Product Design
Recommended Learning Duration: 2 Hrs
Overview: By the end of this course, user will be able to:
- Explain product design
- Explain the basic steps involved in the product design: Innovation, research, sketching, rendering, prototyping & model making, presentation and portfolio
Pre-requisite: User should be a Mechanical Engineer
Training Method: Virtual Video Learning
Course Validity: 90 Days from the date of enrolment
Intro to Product Design
Overview: By the end of this course, user will be able to: Explain product designExplain the basic steps involved in the product design: Innovation, research, sketching, rendering, prototyping & model making, presentation and portfolioPre-requisite: User should be a Mechanical EngineerTraining Method: Virtual Video LearningCourse Validity: 90 Days from the date of enrolment
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2 Hrs Free Course
- Explain product design
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