Design for Manufacturing Certification – What Can You Learn?

Today, outstanding goods must be designed with the user and consumer in mind. The outdated “form follows function” design approach is no longer valid. The procedure must be iterative and adhere to the best product design and development practices. 


While creating excellent user engagement may be time-consuming and costly, there are ways to achieve it more quickly and intelligently without sacrificing quality. Design for manufacturing certification courses for product management explains the fundamental ideas of design thinking surrounding personas, narrative mapping, and prototyping. Product managers should understand and appreciate product designers’ tools and procedures. 


By integrating these concepts with effective scrum methods, you can learn to make outstanding products that don’t compromise design for usefulness or viability.


The subjects covered include the following


  • Selection of Process is Important


  • Parameters & selection criteria


  • comparing various procedures


  • Shape matrix for the process


  • Ranges of section sheet thickness and tolerance


  • related costs


  • It’s both complicated and expensive.


  • Production versus prototyping


  • Case studies for choosing a process


  • Designing for Forging: Fundamentals and Recommendations


  • Designing for Casting: Fundamentals and Recommendations


  • Principles and recommendations for designing for injection moulding.


  • Practice exercises


This course aims to help students get a solid foundational comparative knowledge of different processes and begin designing by specific procedures to strengthen their DFM abilities for mechanical design and product development.


Mechanical designers and engineers who desire to advance their DFM abilities and knowledge would benefit most from this course.


What will you discover?


Detailed descriptions of the many manufacturing processes, including machining, injection moulding, casting, heat treating, sheet metal forming, 3d scanning, electronics assembly, and others.

Fundamental values: affordability, cost, flexibility, and sustainability.

Principles of design for manufacturing, planning a multi-step production process, and significant life-cycle factors for mass-produced goods.


Improve your DFMA knowledge with best practices, advice, examples, and more


Product manufacturing may be expensive and challenging. We are concerned with several interrelated problems regarding functionality and cost in the early stages of building capital equipment and machines.


Unfortunately, the manufacturing process is sometimes overlooked when designing items, which can increase prices and cause delays in bringing products into the marketplace.


This is why it’s crucial to remember that building a working prototype and establishing your concept are the initial steps. We ought to know how to start production when some approximation of a functional machine is finished while keeping prices and cycle times under control.


How should we go about doing this? The solution for many has been DFMA (Design for Manufacturing and Assembly)




To harness the most excellent products and services ideas and provide tangible value for clients and the company, students learn the best ways to efficiently transform concepts into commercial solutions. Design research, process integration, design for industrial product design, and the business of developing new products are all approached from an integrated and multidisciplinary perspective. You can also check out the Autocad for mechanical engineering courses online. 


Topics covered in this course on the Design of Manufacturing include mass customisation, planning and scheduling, platform and adaptable design, material and production process selection, modelling and simulation, and design methodologies.