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Dmaic.com offers comprehensive and fully accredited online Lean training.
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Online Lean courses
Classroom and in-company trainingLean.nl also offers classroom Lean and Lean Six Sigma training. We organize our day and evening courses throughout the Netherlands. Read more
Online workshopsDon't immediately choose a course for you: just get the knowledge and tools that you can use right away. Read more
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CoursesCoursesOnline Lean coursesAffordable Lean packagesOnline Six Sigma coursesClassroom and in-company training
Lean.nl also offers classroom Lean and Lean Six Sigma training. We organize our day and evening courses throughout the Netherlands.
Read moreOnline workshops
Don't immediately choose a course for you: just get the knowledge and tools that you can use right away.
Read more
Design for Manufacturing (DFM)
Introduction: DFM
Design for Manufacturing (DFM) is a product development approach that focuses on designing products in a way that simplifies manufacturing processes, reduces production costs, and ensures quality. By considering manufacturing constraints early in the design phase, teams can avoid costly redesigns and accelerate time to market. DFM bridges the gap between engineering design and production, helping organisations create more efficient, reliable, and cost-effective products.
Background
The concept of DFM emerged in the 1970s when companies began realising that design decisions directly influenced up to 70% of a product’s total manufacturing cost. Early collaboration between design engineers, production teams, and suppliers became essential for achieving competitive advantage. Today, DFM is a cornerstone of Lean and Six Sigma practices, promoting process efficiency, defect prevention, and continuous improvement throughout the product lifecycle.
Key Elements / Features
- Material Selection: Choosing materials that are readily available, affordable, and easy to process.
- Simplified Design: Reducing part count and complexity to streamline assembly and minimise potential errors.
- Standardisation: Using common parts and processes to reduce tooling costs and simplify supply chains.
- Tolerance Design: Setting realistic tolerances to balance precision, performance, and manufacturability.
- Process Compatibility: Ensuring designs align with existing manufacturing capabilities and equipment.
- Early Collaboration: Encouraging cross-functional teamwork between design, manufacturing, and quality teams.
Applications / Examples
DFM principles are widely applied in automotive, electronics, and consumer goods manufacturing. For instance, smartphone manufacturers design components for ease of assembly and automated production. In automotive industries, modular designs reduce assembly time and allow for easier maintenance or upgrades.
Relevance / Impact
Applying DFM improves cost efficiency, reduces production waste, and enhances product reliability. It also speeds up production ramp-up and decreases defect rates, directly supporting Lean and Six Sigma goals. Ultimately, DFM fosters innovation by aligning design creativity with practical, scalable manufacturing processes.
See also
