Meeting the 
Lean Deburring 
Challenge 
SOCIETY OF MANUFACTURING ENGINEERS 
David A. Davidson; Michael Massarsky Ph.D; 
Ja...
Meeting the Lean Deburring Challenge 
Terry Begnoche, SME Manager for Lean Activities and Programming adjusts 
microphone ...
Batch and Queue – 
Typical Hand Deburr 
Stage 1 - Production in Functional Departments 
A 
B 
C
Batch and Queue Hand Deburring at 
MacKay before Lean Deburring 
implementation with Centrifugal
Meeting the Lean Deburring Challenge 
This presentation ws developed with 
materials provided by members of the 
Deburring...
Continuous Flow 
Stage 4 - Compact Cell w/One-Piece Flow 
A 
B 
C 
& Separation Member & Machine
CBF machine center of cell
High Speed Finishing with CBF cellular flow
The High energy centrifugal principle 
Rapid turret rotation and rapid barrel counter-rotation 
• High Speed Processing 
•...
Parts processed in bulk 
MacKay Manufacturing utilizes 
centrifugal finishing as a part of 
Its lean implementation
Compartmentalization for critical parts
Centrifugal Barrel Processing 
Replacement of Hand Deburr 
and Finish
Standardized Work – Visual Aid
High pressure, high force processing 
with small media replaces batch and 
queue hand processing.
Deburring Cell – visual aid 
Competency at a glance
Visual Aids – tracking the high mix – 
low volume flow of critical and premium 
parts at MacKay Manufacturing
Turbo Abrasive Machining – Lean Deburring 
This machine was built to deburr and 
edge-contour turbine and compressor 
disk...
Turbo Abrasive Machining – Lean Deburring 
Dr. Michael Massarsky (below) inventor of 
the Turbo-Abrasive Machining method ...
Turbo Abrasive Machining Basics 
Lean Deburring, Lean Finishing 
Free abrasive method uses fluidized 
bed and part rotatio...
Turbo Abrasive Machining Basics 
Lean Deburring Case Study 
INDUSTRY: Aerospace 
PART: Turbine; Compressor Disks 
PROBLEM:...
Turbo Abrasive Machining – Lean Deburring 
Michael Massarsky Ph D. 
Inventor of the Turbo-Finish 
method . In a “lean” con...
TAM vs. Manual Deburring 
Service Improvement, fatigue resistance 
Also, destructive testing of steel plates: 
Conventiona...
LEAN Rapid Edge Contour – Isotropic Finish of 
Large Rotational Aerospace Components with TAM 
Turbo Abrasive 
Machining 
...
Understanding Part Performance: 
Current Condition vs. Target Condition 
Dave Davidson and Jack Clark, SME members involve...
Understanding Part Performance: 
Current Condition vs. Target Condition 
As Cast After Centrifugal Finish 
As ground After...
Jack Clark of Surface Analytics is a nationally recognized authority on surface metrology 
and the understanding of surfac...
Out from underneath the Microscope 
Parts processed with Lean Finishing…
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Lean Deburring Challenge May 2009

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High speed finishing methods allow mass finishing to be used more effectively in the lean manufacturing environment.

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Lean Deburring Challenge May 2009

  1. 1. Meeting the Lean Deburring Challenge SOCIETY OF MANUFACTURING ENGINEERS David A. Davidson; Michael Massarsky Ph.D; Jack Clark Deburring, Edge-Finish, Surface Conditioning Technical Group Lean2Green Resource Center EASTEC – Springfield MA May 20, 2009
  2. 2. Meeting the Lean Deburring Challenge Terry Begnoche, SME Manager for Lean Activities and Programming adjusts microphone clip for Dave Davidson, SME DESC Group Chair at the SME Lean2Green Conference Program area
  3. 3. Batch and Queue – Typical Hand Deburr Stage 1 - Production in Functional Departments A B C
  4. 4. Batch and Queue Hand Deburring at MacKay before Lean Deburring implementation with Centrifugal
  5. 5. Meeting the Lean Deburring Challenge This presentation ws developed with materials provided by members of the Deburring, Edge and Surface Conditioning Technical Group. One of the technical committees that comprise the Technical Community Network of the Society of Manufact-uring Engineers. A major focus of the Society in recent years has been to proliferate LEAN by providing resources as well as educational and certification opportunities for those who wish to utilize LEAN in their production and business processes. This presentation was developed to highlight how LEAN and mass finishing technologies can be meshed….
  6. 6. Continuous Flow Stage 4 - Compact Cell w/One-Piece Flow A B C & Separation Member & Machine
  7. 7. CBF machine center of cell
  8. 8. High Speed Finishing with CBF cellular flow
  9. 9. The High energy centrifugal principle Rapid turret rotation and rapid barrel counter-rotation • High Speed Processing • Quick-change over • High-Mix, Low Volume capability
  10. 10. Parts processed in bulk MacKay Manufacturing utilizes centrifugal finishing as a part of Its lean implementation
  11. 11. Compartmentalization for critical parts
  12. 12. Centrifugal Barrel Processing Replacement of Hand Deburr and Finish
  13. 13. Standardized Work – Visual Aid
  14. 14. High pressure, high force processing with small media replaces batch and queue hand processing.
  15. 15. Deburring Cell – visual aid Competency at a glance
  16. 16. Visual Aids – tracking the high mix – low volume flow of critical and premium parts at MacKay Manufacturing
  17. 17. Turbo Abrasive Machining – Lean Deburring This machine was built to deburr and edge-contour turbine and compressor disks up to 20 inches in diameter [500mm]
  18. 18. Turbo Abrasive Machining – Lean Deburring Dr. Michael Massarsky (below) inventor of the Turbo-Abrasive Machining method which promotes rapid, single piece continuous flow deburring of large complex rotational parts
  19. 19. Turbo Abrasive Machining Basics Lean Deburring, Lean Finishing Free abrasive method uses fluidized bed and part rotational forces • Fluidized bed technology develops complete envelopment of parts with loose abrasive • Rotational movement of parts produces high intensity abrasive particle contact with part edges and surfaces to develop edge contour and surface finish • Relatively small media and high speed rotation promote processing of intricate or complex geometries and even simple interior channels
  20. 20. Turbo Abrasive Machining Basics Lean Deburring Case Study INDUSTRY: Aerospace PART: Turbine; Compressor Disks PROBLEM: Reduce deburring time and cost; develop edge-contour, develop isotropic surfaces, develop compressive stress PROCESS(ES) REPLACED: hand-tools; pencil grinders TURBOFINISH SOLUTION: Implement TAM Process with TF-Turbo-Abrasive Machine TURBOFINISH PROCESS IMPROVEMENT: 10 inch disk processing time reduced from 3 hrs to 3 min. Per part abrasive cost reduced to 0.15 each. 20 inch disk processing time reduced from 3-10 hrs to 6 min.
  21. 21. Turbo Abrasive Machining – Lean Deburring Michael Massarsky Ph D. Inventor of the Turbo-Finish method . In a “lean” context his process has brought single piece continuous flow processing capability to deburring and edge finish challenges on large rotating parts in the aerospace industry. Additionally, the method has shown to improve service life on critical aerospace hardware. One jet engine manufacturer found its hardware life was improved by 50% in rigorous spin pit testing…
  22. 22. TAM vs. Manual Deburring Service Improvement, fatigue resistance Also, destructive testing of steel plates: Conventional ground plates fail after (1.1 – 1.5) * 104 cycles TAM process plates fail after (3 – 3.75) * 104 cycles COMPARISONS: Fatigue Limit Value σ_1 Grinding = 250 + 43 MPa TAM = 330 + 20 Mpa Spin Test Results: (cycles) Disks with Manual treatment Cracks appear: 2600 + 700 Disks destruct: 5685 + 335 Disks with TAM treatment Cracks appear: 7300 + 700 Disks Destruct: 13090 + 450 IMPORTANT TAKE AWAY POINT
  23. 23. LEAN Rapid Edge Contour – Isotropic Finish of Large Rotational Aerospace Components with TAM Turbo Abrasive Machining technology replaces batch and queue hand deburr with LEAN cellular machining concept. Drives down defect rate to near zero. Drives down WIP from hours to minutes in single piece continuous flow
  24. 24. Understanding Part Performance: Current Condition vs. Target Condition Dave Davidson and Jack Clark, SME members involved with the Deburring and Edge/Surface Conditioning Technical Group
  25. 25. Understanding Part Performance: Current Condition vs. Target Condition As Cast After Centrifugal Finish As ground After Centrifugal Finish High Magnification electron microscope photos – before and after
  26. 26. Jack Clark of Surface Analytics is a nationally recognized authority on surface metrology and the understanding of surface characterization relationships to part performance and longevity. Jack became interested in surface finish for performance when as a leader of a Formula One Racing Team , he could extend the life of critical engine hardware from one race to a year. Using electron microscopes and optical interferometry Jack assists manufacturers develop surface finishes that provide dramatic increases in service life.
  27. 27. Out from underneath the Microscope Parts processed with Lean Finishing…
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