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Who Should Attend
- Undergraduate students in Mechanical, Civil, or Aerospace Engineering
- High school students interested in materials testing and quality control
- Engineers working in industries like construction, manufacturing, aerospace, or automotive
- Professionals in quality control, inspection, and safety engineering
- Technicians and operators involved in material testing and non-destructive inspection processes
What You Will Learn
- Fundamentals of Non-Destructive Testing (NDT)
- Principles, advantages, and limitations of various NDT methods
- Understanding of NDT standards, codes, and specifications
- Key techniques like visual testing, ultrasonic testing, radiographic testing, and magnetic particle testing
- Methods for defect detection in metals, composites, and other materials
- Real-world applications of NDT in safety, quality control, and maintenance
- How to interpret and analyse NDT results for improved decision-making
- Hands-on exposure to NDT equipment and tools
Course Structure
The course is divided into distinct modules that combine theoretical knowledge with practical, hands-on training. Each module focuses on specific NDT techniques and their applications in different industries, ensuring a thorough understanding of both fundamentals and advanced concepts.
Course Duration
The course is structured over 8 weeks, with a total of 25 hours of learning. Each week will feature lectures, practical exercises, and real-world case studies, providing you with a well-rounded experience in NDT.
Course Prerequisites
- Basic understanding of materials and manufacturing processes
- Knowledge of engineering drawings and specifications
- No prior NDT experience required
Course Module
- Overview of NDT principles and its role in industry
- Comparison of destructive vs. non-destructive testing methods
- Safety practices in NDT
- Principles of visual inspection and surface evaluation
- Tools and equipment used in visual testing
- Application of visual testing in different industries
- Principles of sound wave propagation and defect detection
- Ultrasonic transducers and equipment operation
- Hands-on exercises in thickness measurement and flaw detection
- Basics of X-ray and gamma-ray testing for internal defect detection
- Safety measures in radiographic testing
- Real-world applications in weld inspection and material analysis
- Principles of magnetic fields and their application in defect detection
- Equipment used in magnetic particle inspection
- Practical training on detecting surface and subsurface defects in ferromagnetic materials
- Understanding liquid penetrant testing for surface defect detection
- Step-by-step process: cleaning, application, development, and inspection
- Industrial uses of liquid penetrant testing in metals, plastics, and ceramics
- Overview of advanced NDT techniques like Eddy Current Testing (ECT), Phased Array Ultrasonics (PAUT), and Thermography
- Applications in high-precision industries such as aerospace, oil & gas, and nuclear power
- Case studies on the use of advanced NDT techniques
- Understanding global NDT standards (ISO, ASME, ASTM, etc.)
- Certifications for NDT professionals: ASNT, ISO 9712, and others
- Insights into career paths in NDT and quality assurance
- Preprocessor Directives: Use macros and conditional compilation to manage code efficiently.
- Command-Line Arguments: Handle user input from the command line.
- Project Design and Implementation: Apply all learned concepts in a comprehensive project related to industrial applications.
- Code Review and Optimization: Review, optimize, and present your final project.
Why Enroll in This Course
- Industrial Relevance: Gain proficiency in NDT methods that are critical in industries requiring stringent safety and quality standards.
- Expert Instruction: Learn from professionals with hands-on experience in applying NDT in real-world scenarios.
- Career Enhancement: NDT expertise is highly valued in industries like aerospace, oil & gas, construction, and manufacturing.
- Comprehensive Learning: Cover all major NDT techniques, from basic visual inspection to advanced radiographic and ultrasonic testing.
- Hands-On Training: Engage in practical exercises and real-world case studies to apply NDT techniques using professional equipment.
- Engineers Welcome: Engineers can deepen their understanding of material inspection and defect detection, essential for safety and quality control in any engineering field.
Teaching Methodology
- Lectures: In-class sessions for theory
- Hands-On Practice: Build circuits and work with real-world components
- Practical Projects: Industry-relevant mini-projects to enhance learning
- Assessment: Quizzes, project work, and a final evaluation to ensure understanding
Course Certification
Upon successful completion, students will receive a Certificate of Completion demonstrating their proficiency in good practices and safety in electronics and electrical engineering.
Instructor Information
This course is taught by experienced professionals in electronics and electrical engineering, with a focus on practical, real-world skills.
How to Enroll?
To enroll in this course, visit our registration page or contact us at admin@ssitraininginfo.com, 0422-2209999