Mastering Physics In Mechanical Design l Product Design

Mastering Physics In Mechanical Design - Video on our Training Programme Topics.

click below link for course briefings
  / urn:li:ugcpost:6836956460065308672  

Here are the key takeaways from our training course on applying physics laws in industrial product structure design: Worldwide Live Training/Consultancy.
1. Physics Laws in Structural Design
Fundamental principles like Hooke's, Newton's laws, conservation of energy, and stress-strain relationships guide the design process.
Application of physics ensures safety, functionality, and efficiency in products and structures.
2. Metallurgical and Mechanical Properties
Understanding material properties such as tensile strength, yield strength, hardness, and toughness.
Evaluating metallurgical behavior during processes like welding, forging, and heat treatment.
Matching material properties with design requirements to achieve optimal performance.
3. Design Applications and Weight Reduction
Strategies for light weighting products while maintaining strength and functionality.
Leveraging modern materials like high-strength alloys, composites, and advanced manufacturing techniques.
4. Fatigue Life and Durability
Principles of fatigue life analysis for components subjected to cyclic loading.
Methods to predict and improve the longevity of structures, considering crack initiation and propagation.
5. Complex Beam and Column Design
Application of advanced techniques to design beams and columns under diverse loading and boundary conditions.
Understanding buckling, torsion, and complex load paths in structural components.
6. Hand Calculations in Structural Design
Importance of manual calculations to verify design assumptions and results.
Techniques for calculating stresses, deflections, and stability manually for quick validation.
7. Validation by Hand Calculations
Ensuring that numerical and software-based results align with theoretical expectations.
Providing a reliable benchmark for advanced computational tools.
This training emphasizes the integration of theoretical knowledge with practical applications, ensuring that designs are robust, efficient, and validated for real-world applications.



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