7 Types of Waste in Injection Molding – “TIMWOOD”

As a trainer and consultant in lean manufacturing. I stumbled upon the 7 types of wastes – TIMWOOD. This kindled my curiosity to consider the different sorts of waste inside a typical Injection Molding process and classify them in to these 7 kinds of waste.

Naturally, Injection Molding is really a complex procedure that involves coordination among various departments. There’s great potential for reducing waste in the Molding Process.

1. “T” for Transportation – The unnecessary movement of people or parts between processes.

e.g.

• Moving molds from storage to the press and vice versa
• The movement of resin from warehouse to the press
• The movement of tools and auxiliary device
• The unnecessary movement of finished goods or semi-finished goods before they are shipped

Address transportation issues by

• If possible, placing the process nearby, using material that shifts from tactics to process without significant delays
• Expansion of production route
• Acquiring multiple storage locations
• Not creating extended or complicated material handling system

2. “I” for Inventory – Holding unnecessary material or parts when not needed

e.g.

• Extra resin inventory – Stocking more resin than necessary
• Surplus parts inventory – Producing parts more than necessary
• Extra machine spare/expendable items/tools

To avoid getting over stock, you can

• Adjust the development process to achieve smooth flow
• Work with a small batch size
• Adhere to the first-in-first-out principle of stagnant material.
• Reduce switching time

3. “M” for Motion – Unnecessary Motion that contributes no value

e.g.

• Opening and closing the security gates for removing parts from the mold/tool without using sprue robots
• Manual de-gating and extra secondary operation
• Reaching too far over for handling parts
• Walking around for searching tools

Reducing motion waste by

• Improving workstation layouts to avoid excessive walking or bending
• Organizing techniques to allow parts to transfer easily from one hand to another
• Redesigning work layout to reduce change in direction of material
• Reduction of batch size

4. “W” for Waiting – People or parts that wait for a work cycle to be completed

e.g.

• Waiting for Machine – Barrel heating, mold heating/cooling, hot runner manifold, machine failure, machine maintenance
• Waiting for Material – Preheating
• Waiting for Men – Paper making for quality inspection/approval, missing schedule
• Waiting for Mold – Tool repairing, tool adjustments under out-of-tolerance conditions

The key to eliminating waiting waste is

• Procedures
• Following checklists for activities where available
• Keeping the work area to specified standard

5. “O” for Over-processing – Using equipments that are not necessary for the work

e.g.

• Making parts which are of tighter tolerance than is needed by Customer
• Over rejecting/over inspecting parts beyond customer needs
• Using bigger press/greater tonnage press that is needed for that mold
• Produce parts with more cycle time
• Running multi-cavity tool with cavities off leading to more cycle time/part produced

Reduce over-processing by:

• Standardizing best approaches for workers to follow along with
• Setting obvious specifications and quality acceptance standards

6. “O” for Over-production – Generating parts than precisely what it takes

e.g.

• Producing more parts than customers need
• Making more parts in anticipation of more orders
• Making many parts due to schedule problems
• Running a mold when only one part is required from multiple cavities

Avoid over-production by:

• Dealing with smaller sized batch sizes
• Making more reliable processes
• Creating stable schedules
• Balancing cells or departments
• Using accurate forecast information which reflects the particular demand

7. “D” for Defects – Rework, Scrap, Incorrect documentation

e.g.

• Making wrong parts – wrong specifications/color/wrong Rev
• Wrong set up – secondary operations
• Parts with missing documents/documents with errors
• Packaging parts with incorrect/wrong box labels
• Mixing two various parts while shipping

To reduce the regularity of defects, attempt to

• Institute sufficient training to enhance workers’ skills
• Improve processes
• Source capable suppliers
• Reduce operator error
• Lower the surplus stock
• Improve transportation plans

There’s also another kind of waste – Skills wastage which is recognized as the eighth kind of waste

e.g.

• Allowing untrained/under-trained Labor or Operator to function specialized equipment
• Insufficient specialized training sources for that molding operations personnel
• Underutilizing human sources for doing rudimentary tasks

Identifying these kinds of wastes and classifying them in to the 7/8 kinds of waste could be useful in creating a Lean Molding Shop. As more shops around the world adjust to Lean culture, this exercise could be interesting for that Injection Molding Business.