From Hours to Minutes: Applying SMED to Die Changeover Processes

“The hardest part of SMED is not the stopwatch: it is the mindset.”

Introduction

Whenever guests come to our home, we can prepare dinner in two ways. In the first approach, a single person takes full responsibility and works throughout the day to get everything ready, including cleaning, shopping, and cooking.

In the second approach, the work is shared among family members. For example, one person cuts the salad, another buys vegetables and sweets at the market, someone cleans the house, and someone else handles the kitchen. By dividing tasks, the same work can be finished in just a couple of hours.

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Objective and Significance of SMED

The primary objective of SMED is to utilise resources optimally and achieve the best possible results. Its importance is increasing every year, as customers continuously demand cost reduction without compromising on quality and delivery. Faster changeovers enable smaller batch sizes, reduced inventory, and improved operational flexibility.

What You Will Learn

After reading the article, you will understand:

• The meaning of SMED
• Why it is important
• The key steps involved
• An example of die changeover
• The difference between internal and external activities
• The major benefits of SMED
• The current challenges faced in the industry 

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Definition:

Heijunka: It is the practice of smoothing and levelling production volume and product mix over a period of time to create a steady, predictable workflow.

SMED (Single Minute Exchange of Dies): It is a Lean method used to reduce machine changeover time so that switching from one product to another takes less than 10 minutes.

Standardised Work: it is the documented best method to perform a job safely, efficiently, and consistently using the least waste.

Takt time: It is the rate at which a product must be produced to meet customer demand.

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Detailed Information

SMED stands for Single-Minute Exchange of Die, a lean manufacturing methodology developed by Shigeo Shingo at Toyota in the 1950s–70s.

Despite the name, “single-minute” doesn’t mean changeovers must take exactly one minute; it means they should take less than 10 minutes (i.e., a single-digit number of minutes).

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Why is SMED needed?

In a traditional setup, the thought process is that,

• Because changeovers take too long, we make large batches.
• Because we make large batches, we hold a huge inventory.
• Because we hold a huge inventory, we are slow, costly, and inflexible.

SMED is needed because in today’s world, the factory that changes fastest wins, and long changeovers are the single biggest obstacle to that speed.

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The Two Key Concepts

Internal setup: tasks that can only be done while the machine is stopped (e.g., physically swapping a die or tool).

External setup: tasks that can be done while the machine is still running (e.g., pre-staging tools, pre-heating dies, gathering documents).

The Four Steps of SMED

1. Observe: Document the current changeover process in detail (often by video).
2. Separate: Identify which activities are internal vs. external.
3. Convert: Move as many internal tasks to external as possible.
4. Streamline: Optimise all remaining steps (standardise, use quick-release clamps, checklists, parallel work, etc.).

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Steps to Effectively Implement SMED

A factory produces plastic moulded components. It needs to switch from making Part A (blue plastic caps) to Part B (red plastic bottles). This requires changing the mould (die) in the injection moulding machine.

Original changeover time: 4 hours

Step 1: OBSERVE – What Happens Currently (Before SMED)

Everything is done after the machine stops:

Step 2: SEPARATE – Internal vs. External

Step 3: CONVERT – Move Internal to External

Before the machine even stops, the operator now does:

75 minutes moved outside the machine stoppage window.

Step 4: STREAMLINE – Optimise What Remains

Even the remaining internal tasks are improved:

 Final Result

The machine is now stopped for less than 1 hour instead of 4 hours — a 75%+ reduction in downtime.

Key Takeaway

The golden rule of SMED: “Never let the machine wait for the operator, let the operator wait for the machine.”

Common Pitfalls to Avoid

Even well-planned SMED events can fail to deliver lasting changes if these traps aren’t addressed:

• Not involving operators:
• Skipping video analysis
• Focusing only on big fixes
• Ignoring documentation and training
• Treating SMED as a one-time event

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Key Benefit

• Enables just-in-time (JIT) production
• Reduces downtime and waste
• Allows manufacturers to respond faster to demand changes
• Supports smaller, more frequent production runs without sacrificing efficiency
• OEE (Overall Equipment Effectiveness) is the best metric to measure SMED success; by reducing changeovers, companies reclaim lost Availability and eliminate trial-and-error adjustments that cause scrap, improving Quality.

A classic analogy is a Formula 1 pit stop, through careful preparation and parallel teamwork, what once took minutes has been reduced to under 3 seconds. SMED applies the same thinking to factory floors.

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Conclusion:

SMED relies on a culture embracing continuous improvement; a lack of engagement from upper management, production teams, or support groups can undermine efforts.

SMED isn’t just a company benefit; for the operator, it means a calmer, safer, more skilled, and more respected role on the shop floor. The operator stops being a passive executor and becomes an active contributor to how the factory performs.

SMED is not just a tool; it’s a mindset shift

The golden rule of SMED: SMED fails when it is treated as a one-time event. It succeeds when it becomes a way of thinking.

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Present Challenges:

Resistance to Change is the biggest Barrier. “We’ve always done it this way” is the most common phrase heard on the shop floor.

• Operators fear that SMED will make their skills redundant or less valued
• Supervisors worry about losing control of their area
• Management hesitates to invest time in improvement when production pressure is high

“The hardest part of SMED is not the stopwatch: it is the mindset.”

References:

IATF 16949

Toyota Production System

Industry Experts

This is the 250th article in my Quality Management series. Each weekend, I share practical insights designed to make your Management System journey more effective, efficient, and meaningful. If you find this useful, please share it with your colleagues as well.

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