Technical Training Programs
You Can Do It When You Skill It
Technical Training is all about the job obtaining the necessary skills to do a job, Adding new tools to enhance the job. Relearning, smarter, faster, processes to expand the job. It helps to create and maintain employees who succeed in doing jobs that keep a competitive edge in their marketplace. People Working in Manufacturing Industries need to be Technically Proficient. Technical Training workshops are best suited for middle management people, line engineers, and supervisors.
Tetrahedron has 160+ Technical Workshop modules to ensure the right Technical Skills for the workers. Our Training is designed so that each participant can learn and acquire the right job skill specific to its job role and implement the learning in real-time. Our client is tangible proof of our work.
Tetrahedron has partnered with clients in industry sectors ranging from pharmaceuticals to engineering to medical devices and automotive to design, develop and deliver Technical Content and Technical Training to internal teams, manufacturing professionals, etc.
KEY HIGHLIGHTS OF TECHNICAL WORKSHOP
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Program Courses
SOME OF OUR SIGNATURE PROGRAMS
Advanced Product Quality Planning (APQP) is a quality framework used for developing new products in the automotive industry. It can be applied to any industry. Its purpose is “to produce a product quality plan which will support the development Read More
Design FMEA is a structured approach that ensures potential failure modes and their associated causes have been considered and addressed in the product design. It identifies design functions, failure modes, Read More
Process FMEA is a structured approach that ensures potential process failure modes and their associated causes have been considered and addressed in the design of the process. The Process FMEA is being conducted after the Design FMEA process and Read More
SPC is a method of measuring and controlling quality by monitoring the manufacturing process. Quality data is collected in the form of product or process measurements or readings from various machines or instrumentation. The data is collected and used to evaluate, monitor, and control a process. SPC is an effective method to drive continuous improvement. Read More
Geometric Dimensioning and Tolerancing has extensive use in automotive industries, has been identified as a required skill in the Quality System Requirement section of Automotive Industry Action Group’s (AIAG) new quality standard. TS16949:2002 Read More
Advanced GD&T has found its greatest application in mass production, where interchangeability of blindly selected parts is essential. Without GD&T and tolerance analysis, there is no way to know what parts have been designed such that all manufactured parts will fit together at assembly. Read More
Inventory Management is a key strategic enabler in a company’s ability to design its manufacturing process, deliver to customer expectations, and minimize overall costs.IM does not make decisions or manage operations, provide information to managers Read More
The Production Part Approval Process (PPAP) is a standardized process in the automotive and aerospace industries that helps manufacturers and suppliers communicate and approve production designs and processes before, during, and after Read More
Industry 4.0 and advanced manufacturing both are topics of high international relevance. They are currently the topic of intense debate both in the academic literature and in the practical context of the 4th Industrial Revolution. As per a recent survey of top CEOs of manufacturing companies, suppliers who are prepared for this 4th revolution will be able Read More
Virtual reality (VR) is a computer-generated scenario that simulates a realistic experience. The immersive environment can be similar to the real world in order to create a lifelike experience grounded in reality or sci-fi. Virtual reality technology has enabled humans to face anything at any place at any point in time. It feels like we are in a virtual world and feels the earth around us reasonably. Read More
Design of Experiments, in general, is a useful method for solving problems, optimizing, designing products, and manufacturing and engineering. Design of Experiments is applied for root cause quality analysis, developing optimized and robust designs, producing analytical and mathematical models to forecast the system Read More
Electric Vehicles (EV) have been available in the market for the last 110 years. During the first stage of vehicles’ development, there were only two competitors, internal combustion engine (ICE) and EV. The EV was a lead vehicle compared to ICE until 1930; after that time the panorama changed due to the maturity of gasoline. Read More
“Design for Quality” is used to design the product that delights the customer experience, provides the product that can compete over various quality factors, and also provide a long-lasting and durable product/Service. This play very important role to gain customer trust and long term customer. Read More
OEE is used to calculate the productive time of manufacturing over the total available time for manufacturing. It helps to improve the manufacturing processes to increase production. The factors that are considered during OEE calculation are productivity, Read More
TPM is used for the systematic maintenance of the equipment/machines as per requirement. It helps to Improve equipment lifetime and Durability. Also to Prevent accidents, Breakdown, and Slow Production, TPM play a very important role. It maximizes the operational efficiency. Read More
The fifth industrial revolution is known as Industry 5.0 and is being evolved to focus on the personalized demand of customers. Industry 5.0 provides computing power to the industry, which is to facilitate the digital manufacturing systems and is built to communicate with other systems. Read More
Measurement System Analysis is a method used to validate the correctness of the Measurement System used in data collection statistically by studying the variability contributed to the overall system by the measurement system. Read More
OUR OTHER TECHNICAL TRAINING COURSES
- Advance Hydraulics
- Advance Logic Synthesis
- Automation and Control
- Controllers
- Electronic Design Automation
- Energy Management Systems and SCADA
- Global Positioning System
- Industrial Automation and Control
- Industrial Instrumentation
- Mechatronics and Manufacturing Automation
- Neural Networks and Application
- Pattern Recognition and Application
- PLC Integration to LAN and WAN
- Robotics
- Robotics:Advance Concepts and Analysis
SCADA - Sensors
- Wireless Ad Hoc and Sensors Network
- Distributed Control System: Siemens+Emerson
- Algorithms for Big Data
- Artificial Intelligence (AI)
- Certified ScrumMaster (CSM)
- Virtual Reality (VR)
- Design for Quality (DFQ)
- Measurement System Analysis
- Measuring Uncertainty in Calibration (MUC)
- MSA + SPC
- PPAP (Production Part Approval Process)
- Principles of Mechanical Measurements
- Process FMEA (PFMEA)
- Product Quality Control – Advanced Approach
- Quality Function Deployment (QFD)
- Reliability Engineering
- SPC (Statistical Process Control)
- Theory and Practice of Non Destructive Testing
- BI (Business Intelligence) Tool
- Minitab
- Regressing Analysis
- Sampling Theory
- Statistical Methods For Scientist and Engineers
- Advance Finite Element Analysis
- APQP (Advanced Product Quality Planning)
- Auger Design
- BIS 13252
- BIS 16046
- B&P Diagram – Boundary and Parameter Diagram
- CAD for VLSI Design
- CATIA
- CE & CB Testing
- Collaborative Product (Process) Development CPD
- Creative Engineering Design
- Design FMEA (DFMEA)
- Design for Manufacturing & Assembly ( DFM/A)
- Design Fundamentals
- Design Review based on Failure Mode (DRBFM)
- Design Verification Plan and Report (DVP & R)
- Destructive and Non-Destructive Tests
- Engine Testing & Vehicle Testing
- Engineering Drawing
- Environmental FMEA
- Failure Mode Avoidance (FMA)
- Failure Mode Effect & Criticality Analysis (FMECA)
- Failure Mode Effect Analysis (FMEA)
- Finite Element Analysis (FEM)
- Front End Engineering Design (FEED)
- GD&T (Geometric Dimensioning and Tolerancing)
- GD&T Advanced- Tolerance Stack-Up Analysis
- IPC A 610 H
- New Product Development
- PLM
- UL 508 A
- UN 38.3
- Analysis of Variance and DOE
- Applied Multivariate Analysis
- Design for Six Sigma (DFSS)
- Design for Six σ
- Design of Experiment (DoE)
- Assurance Audits & Reviews
- Mechanical Measurement and Metrology
- Green Manufacturing
- Water Management
- Advance Maintenance Strategy : Plan & Estimate
- Asset & Integrity Management
- General Inspection education and Execution
- Minor Stop + Speed Loss + defect Loos
- Modern Maintenance and Predictive Maintenance
- Reliability & Maintainability (R&M)
- Reliability Centered Maintenance (RCM)
- TPM – 10 Pillar Approach
- TPM – 16 Losses and 8 Pillars
- TPM – 7 Steps of PM
- TPM – Figure of 8 Approach
- TPM – JH Step 1 to 4
- TPM – JH Step 5 to 7
- TPM – Makigami Analysis
- TPM – PM Analysis
- TPM – PM Analysis – Figure of 8 Approach
- TPM – QA / QM Matrix
- TPM – SMED (Single Minute Exchange of Die)
- TPM – Tag Attach – Remove – Analysis
- TPM – Total Productive Maintenance
- TPM Awareness
- Set Up & Start Up Loss Improvement
- Industrial Engineering
- Time Value of Money Concepts and Calculations
- Advance Electric Drives
- Electric Vehicle Assembly
- Electric Vehicle Maintenance and Repair
- Electric Veicle Design
- Introduction to Hybrid and Electric Vehicles
- Advance Machining Processes
- Advance Manufacturing Processes
- Advances in Welding and Joining Technologies
- Braking System (Including Tyres)
- CNC Lathes and Mills
- Compressors
- Computer Integrated Manufacturing (CIM)
- Dynamics of Machine
- ESD Controls In Manufacturing
- Flexible Manufacturing Systems (FMS)
- Fluid Power
- Gear Technology
- Global Supply Chain Management
- Grinding & Shaping Finishing
- HVAC System
- Hydraulics
- Industrial Drives:Power Electronics
- Machine Fault Diagnosis and Signal Processing
- Machining
- Material science
- Pipe Stress Analysis & Practice Using CEASER – II
- Steel Making
- Surface Treatment /Paint Technology
- Theory and Practice of Rotor Dynamics
- VFD Parameterization and Maintenance
- Vibration Control
- Warehouse and Inventory Management
- Weld Technology
- Pipeline Integrity Management System with ASME
- Vibration Monitoring & Analysis + Simulation
- Advance Manufacturing Process
- Ergonomics For Industrial Design
- Industrial Oil Hydraulics and Pneumatics
- Smart Material & Adaptive Structure