Monday, March 16, 2026

Improving and Optimizing Injection Molding Process Parameters - Engineering to Improve Parameter Ranges

 

Posts shared by Basant Pandole

Production Engineer | Injection Moulding Specialist | Manufacturing Excellence | Lean Six Sigma | Team Leadership As a Production Engineer at Ganesh Gouri Industries Pvt Ltd, I bring extensive expertise in inj. moulding


https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmolding-plasticmanufacturing-manufacturingengineering-activity-7439131283521200129-oV4k?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk


https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmoulding-plasticprocessing-manufacturingengineering-activity-7438788895900725248-gCok?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk

https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmolding-plasticmanufacturing-manufacturingengineering-activity-7437950274578595840-r4Tv?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk

https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmoulding-plasticmanufacturing-manufacturingengineering-activity-7436976659607642112-UYgi?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk

https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmolding-plasticmanufacturing-polymerengineering-activity-7436603600207872001-9Lzr?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk

https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmoulding-plasticmanufacturing-manufacturingengineering-activity-7435879012029276160-Hqa1?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk

https://www.linkedin.com/posts/basant-pandole-29b60117b_polymers-polymerscience-plasticsengineering-activity-7435522908057198592-DXvo?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk


https://www.linkedin.com/posts/basant-pandole-29b60117b_injectionmoulding-plasticmanufacturing-manufacturingengineering-activity-7433697720260771841-v2ZT?utm_source=share&utm_medium=member_desktop&rcm=ACoAAAFdVngBlMiZ925dL49SAnzlYQ-9zYj5bhk

Research article

Optimizing injection molding parameters to reduce weight and warpage in PET preforms using Taguchi method and Analysis of Variance (ANOVA)


Rozeena Aslam, Awais Ahmed Khan, Hamza Akhtar, Sadia Saleem, Muhammad Sarfraz Ali 


Next Materials

Volume 8, July 2025, 100623

Open Access

https://www.sciencedirect.com/science/article/pii/S2949822825001418







RECENT METHODS FOR OPTIMIZATION OF PLASTIC INJECTION MOLDING PROCESS –A RETROSPECTIVE AND LITERATURE REVIEW 

International Journal of Engineering Science and Technology 

Vol. 2(9), 2010, 4540-4554 

P.K. Bharti 

Assistant professor, Mechanical Engineering Department, Integral 

University, Lucknow, 226023, India 

M. I. Khan 

Prof. and Head, Mechanical Engineering Department, Integral University, Lucknow, 226023, India 

Harbinder Singh 

Professor and Director, Bundel khand Institute of Engineering and Technology, Jhansi, India 

Abstract:

Injection molding has been a challenging process for many manufacturers and researchers to produce products meeting requirements at the lowest cost. Faced with global competition in injection molding industry, using the trialand-error approach to determine the process parameters for injection molding is no longer good enough. Factors that affect the quality of a molded part can be classified into four categories: part design, mold design, machine performance and processing conditions. The part and mold design are assumed as established and fixed. During production, quality characteristics may deviate due to drifting or shifting of processing conditions caused by machine wear, environmental change or operator fatigue. 

Determining optimal process parameter settings critically influences productivity, quality, and cost of production in the plastic injection molding (PIM) industry. Previously, production engineers used either trial-and-error method or Taguchi’s parameter design method to determine optimal process parameter settings for PIM. However, these methods are unsuitable in present PIM because of the increasing complexity of product design and the requirement of multi-response quality characteristics.

This article aims to review the recent research in designing and determining process parameters of injection molding. A number of research works based on various approaches have been performed in the domain of the parameter setting for injection molding. These approaches, including mathematical models, Taguchi method, Artificial Neural Networks (ANN),Fuzzy logic, Case Based Reasoning (CBR), Genetic Algorithms (GA), Finite Element Method(FEM),Non Linear Modeling, Response Surface Methodology, Linear Regression Analysis ,Grey Rational Analysis and Principle Component Analysis (PCA) are described in this article. The strength and the weakness of individual approaches are discussed. It is then followed by conclusions and discussions of the potential research in determining process parameters for injection molding


https://www.researchgate.net/publication/50346402_Recent_methods_for_optimization_of_plastic_injection_molding_process-a_retrospective_and_literature_review



Ud. 16.3.2025

Pub. 9.7.2025








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CALL FOR AUTHORS - Advances in Integrated Intelligent Systems Engineering

Waldemar Karwowski

Pegasus Professor and Chair, Department of Industrial Engineering and Management Systems, University of Central Florida


11.3.2026

CALL FOR AUTHORS

https://www.linkedin.com/feed/update/urn:li:activity:7437496130826895361/




Advances in Integrated Intelligent Systems Engineering

Edited by: Waldemar Karwowski Vincent G. Duffy, and Gavriel Salvendy


To be published by John Wiley & Sons, New York


BOOK DESCRIPTION

Over the last five years, the field of systems engineering has undergone a significant transformation, driven by the integration of digital technologies, the need for a transdisciplinary approach to the subject matter, the impact of artificial intelligence, including deep learning and large language models, and the ever-increasing complexity of engineering projects globally.

Intelligent systems engineering is critical in today's complex and interconnected world. As technology advances and societal challenges become increasingly intricate, the need for intelligent approaches to designing, managing, and optimizing large-scale systems has never been more critical.


This edited book is designed to provide comprehensive coverage of the emerging field of integrated intelligent systems engineering, from foundational principles through advanced methodologies to practical applications and future directions.


"Advances in Integrated Intelligent Systems Engineering" will comprehensively cover principles, methodologies, tools, and case studies. The book will serve as both an authoritative guide for professionals and a foundational text for academics by focusing on the use of intelligent systems engineering to enhance efficiency, creativity, and collaboration, thereby enabling the development and use of complex engineered systems.


EXPRESSION OF INTEREST

An expression of interest to contribute a chapter to this book should be sent directly to Dr. Waldemar Karwowski: wkar@ucf.edu and/or Dr. Vince Duffy: duffy@purdue.edu by March 19, 2026.


YOUR PROPOSAL SHOULD INCLUDE:

- Proposed chapter title

- Co-authors’ names and contact information (affiliation, address, and email)

- A short description of the intended contribution (max 250 words)

- Draft (tentative) Table of Contents 


DELIVERY DATES:

Expression of interest: March 19, 2026

Draft table of contents: April 2, 2026

Chapters due on or before July 25, 2026


TENTATIVE TABLE OF CONTENTS


Part I. Foundations of Systems Engineering

Part II. Evolution of Systems Engineering

Part III. Machine Learning in Systems Engineering

Part IV, Artificial Intelligence in Systems Engineering

Part V. Managing Trust and Explainability in Integrated Intelligent Systems 

 Engineering

Part VI. Stakeholder Engagement in Integrated Intelligent Systems Engineering

Part VII. Design and Operation of Integrated Intelligent Systems Engineering 

Part VIII. Integrated Intelligent Systems Engineering: Applications 

Part IX. Integrated Intelligent Systems Engineering: Case Studies

Part X. Future Directions in Integrated Intelligent Systems Engineering


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Sunday, March 15, 2026

F.W. Taylor Industrial Engineering - Productivity Management Week, March 14 - 20

I would like to bring to your notice Birthday of F.W.Taylor on 20th March.  

  • You can celebrate the birthday of F.W. Taylor in your Industrial Engineering Department and Company. You can share what you are implementing in your company from Taylor's Ideas. 
  • You can also circulate a newsletter to all  employees highlighting Taylor's ideas to improve productivity and reduce costs.

My Industrial Engineering Newsletter - March 2026 - Taylor Month of IE - Contribution of F.W. Taylor to Industrial Engineering and Productivity Management.

https://www.linkedin.com/pulse/march-2026-issue-taylor-month-ie-contribution-fw-industrial-kvss-71nlc

 

Neglected Industrial Engineering of F.W. Taylor.


Machine Effort Industrial Engineering.

Quality Shop floor Foreman

Speed Shop floor Foreman

Time reduction through process improvement focus of Time Study

Employee Involvement and Personnel Relations by Managers and Process Improvement Specialists

Knowledge Management

Industrial Engineering Research and Productivity Science Development

Productivity Engineering - Engineering improvement of products, processes and facilities is the main task of industrial engineers.

What are your comments on neglected aspects highlighted?


F.W. Taylor Industrial Engineering/Productivity Week (14 - 20 March)

Suggested Reading

Frederick Winslow Taylor (Birthday. 20 March) - A Pioneer Industrial Engineer
https://nraoiekc.blogspot.com/2012/04/frederick-winslow-taylor-pioneer.html


Father of Industrial Engineering - Frederick Winslow (F.W.) Taylor
https://nraoiekc.blogspot.com/2017/03/father-of-industrial-engineering.html



Frederick Taylor's Productivity Study System for Rapidly Attaining The Maximum Productivity - Part 1
http://nraoiekc.blogspot.com/2018/07/frederick-taylors-piece-rate-system.html



Please share your thoughts on Taylor's contribution to industrial engineering.



Pub. 13.3.2026



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Initiating Six Sigma - IE Six Sigma - Robust Productive Process Design

Lesson 410  of  Industrial Engineering ONLINE Course -  IE Statistics and IE Six Sigma Module.

Robust Productive Process Design

IE Six Sigma - Robust Productive Process Design

Industrial engineers have to do six sigma improvement or calculation of the process redesigned by them using the latest engineering and process knowledge.

Acquiring and Using the Latest Engineering Knowledge.

Industrial engineering have to develop engineering knowledge acquisition system and develop a knowledge management system that provides them the links to appropriate knowledge when they are evaluating a process for improvement.


Acquiring Process Knowledge

Analyst has to become intimately familiar with the process and develop a graphic to represent it.

Steps.

Analyst observes and records information about the process

One-on-one interviews with those familiar with the process

A graphic model of the process is developed based on these interviews

Group meetings with personnel familiar with process

The analyst records the discussion of the meeting.

A graphic model of the process is developed based on the group meetings.

Based on the comprehensive process chart and detailed information on each operation of the process (Operation information sheet) process is analyzed and improved with the collaboration of the operators, supervisors and engineers using the process.



The six sigma procedure identifies the set of discrete parameters that give the lowest variation. So after industrial engineers redesign the process, that provide additional steps or values of discrete parameters, six sigma exercise can be done. This exercise will confirm the productivity benefit of IE redesign and also in addition confirms the quality of the process also. It is a good integration of productivity and quality dimensions.


Robust product design and process planning in using process capability analysis

Journal of Intelligent Manufacturing volume 26, pages459–470 (2015)

https://link.springer.com/article/10.1007/s10845-013-0802-6



Initiating Six Sigma

Dr. T. P. Bagchi , Department of Management, IIT Kharagpur

_____________________


https://www.youtube.com/watch?v=sd2xKiG8nnw&list=PL8F39D0611CB7BD3B&index=4

_____________________







Ud. 15.3.2026

Pub. 20.3.2022



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Industrial Engineering - A to Z 2026 - Theme Reveal Post

 




2026 A to Z Blogging April Challenge - Theme Reveal Post

The theme is Industrial Engineering - A to Z 2026.

Will have articles in the discipline of industrial engineering on selected topics.

What is industrial engineering? It is an engineering disciplines that focuses on increasing productivity of resources used in engineering systems and processes. To elaborate it further we can identify product IE, facilities IE, Process IE that involves machine effort IE and human effort IE. Productivity increase will result in lower costs and more goods and services for the society with the same inputs. Productivity science, Productivity engineering and Productivity management are important tasks of industrial engineers.

I am consolidating  my  industrial engineering A to Z posts of various years and also posts in the blog in a big compilation.

The above consolidation will be released as an E-book.

My earlier Ebook of blog posts was a big success.

Most popular IE publication on Academia.Edu platform.  11,950+ Downloads/Views in one location. 14,000+  Downloads/Views from 3 locations.
INTRODUCTION TO MODERN INDUSTRIAL ENGINEERING. EBook. FREE Download.
A Collection of Blog Posts on Industrial Engineering. Introduction to Modern Industrial Engineering: History, Principles, Functions and Focus Areas.




Important dates for 2026:
March 9 - 14 Theme Reveal
March 23 - April 4 Sign-up
May 4 - 9 Reflections
May 11 - Road Trip opens
------------------

If you are a blogger join the challenge.


You can reveal your theme.




#AtoZChallenge  Topics for 2026


Applied IE - Agentic AI

Behavioral Aspects in  IE

Cost Reduction and Cost Management by Industrial Engineers

Decision Making in IE

Effectiveness of IE

Flow Analysis and Improvement IE

Goals of IE

Health Aspects of IE

Innovations by IEs

Job Shop IE - Shahrukh Irani

Knowledge Management for IE

Low Cost Products and Processes for IE

Management Module for IE

New Technologies Adoption by IE in Processes Under Their Productivity Management

Operations Management and IE

Production and Industrial Engineering - A Popular Branch of Engineering

Quality Related Interventions by IEs

Respect for People and Personal Relations - Assertion by F.W. Taylor

Society Prosperity - Industrial Engineering Effectiveness

Total Industrial Engineering

Understanding Processes

Value Addition by IEs

What is New in  IE in 2025-2026?

X-Platform - Industrial Engineers' Participation

YouTube - Industrial Engineering Videos by Narayana Rao

Zeal for Industrial Engineering - Productivity - Cost Reduction


Topics for 2026 - Brief Introduction


Applied IE - Agentic AI

Applied IE is explained as IE in New Technologies - IE with Technologies.

As each new technology appears, applied IE of that technology begins.


Behavioral Aspects in  IE

IEs use behavioral science discoveries and behavioral management approaches in their discipline.

Cost Reduction and Cost Management by Industrial Engineers

Cost reduction is final goal of industrial engineering. Cost reduction in all organizations of the society will give more GDP from the resources. Hence there is economic prosperity in the society.

Decision Making in IE

In IE number of decisions are to be made.

Effectiveness of IE

IE has to be effective in an organization to provide expected cost reduction.

Flow Analysis and Improvement IE

Flow is an important aspect in processes and systems.

Goals of IE

Cost reduction is the ultimate goals
Cost reduction happens through productivity improvement of each resource and total factor productivity or total resource productivity.
Incomes of employees have to go up.
Employees have to be comfortable, healthy and happy.

Health Aspects of IE

IE has to evaluate the occupation health aspects of its process changes to increase productivity

Innovations by IEs

Industrial engineers have to create useful process changes through inventions and innovations.

Job Shop IE - Shahrukh Irani

Job shop IE is the focus of a book by Shahrukh Irani.

Knowledge Management for IE

Industrial engineering is based on knowledge of engineering and IEs have to update the engineering knowledge of  Industrial engineering department as well as others in the organization on a daily basis,

Low Cost Products and Processes for IE

Searching the environment of low cost materials, low parts and products and low cost processes is also a daily activity for IED.

Management Module for IE

IE as a function and as a department needs to be managed. IE studies and projects are to be managed. Hence IEs need management inputs in their educational programs.

Mikell Groover in his  Book - Work Systems and the Methods, Measurement, and Management of Work specially includes management of work in the title.

He gave the following chapters under management of work in third edition of the book.

Ch.27 Work organization
Ch. 28 Worker Motivation and Social Organization of Work
Ch. 29 Job Evaluation and Performance Appraisal
Ch. 30 Compensation Systems




New Technologies Adoption by IEs in Processes Under Their Productivity Management

New technologies useful for productivity improvement for the processes under their jurisdiction or ownership have to be identified by IEs. They have to learn the basics of the new technology and arrnage for pilot study in their own facility or technology supplier's facility.

Operations Management and IE

Industrial engineering plays a major role in studies of facilities, layouts and processes used in operations management.

Production and Industrial Engineering - A Popular Branch of Engineering

This is a popular specialization in many institutions.

Quality Related Interventions by IEs

Reducing defects is a task for industrial engineering. They also try to reduce cost of inspection activities.

Respect for People and Personal Relations - Assertion by F.W. Taylor

This aspect of Taylor's writing was ignored and an opinion was created that Taylor did not consider the dignity of  human factor and their physical and psychological well-being.

DO YOU BELIEVE THAT F.W. TAYLOR SAID IT IN 1912?

"Almost all of the best suggestions for improvements come from intelligent workmen who are cooperating in the kindliest way with the management to
accomplish the joint result of producing a big surplus which can be divided between the two sides equitably."

The quotation is from Testimony of Taylor before an investigation committee in 1912.


Society Prosperity - Industrial Engineering Effectiveness

Industrial engineering helps the economies to produce more out of the resources used. When IE is done effectively in many organizations, society will have more economic prosperity.

Total Industrial Engineering


Circulating Industrial Engineering Newsletters to all the employees in the company can develop total industrial engineering, industrial engineering furthered by the participation of all employees.


Access Essays on F.W. Taylor's Writing - Belt Drive Design, Productivity System and Section, Shop Management, Productivity Science of Machining, and Scientific Management

Celebrate the birthday of F.W. Taylor in your Industrial Engineering Department and Company. Share what you are implementing in your company from Taylor's Ideas.

Birthday of F.W. Taylor 20th March. Modern Industrial Engineering March  2026 Issue - Taylor Month of IE - Contribution of F.W. Taylor to Industrial Engineering and Productivity Management - Implemented and Neglected

https://www.linkedin.com/pulse/march-2026-issue-taylor-month-ie-contribution-fw-industrial-kvss-71nlc


Understanding Processes

Industrial engineers have to understand processes given to them for productivity improvement in their organization.

Mikell Groover - Book - Work Systems and the Methods, Measurement, and Management of Work

            How to Create / Develop the Chart or Diagram? - Mikell Groover.

Analyst has to become intimately familiar with the process and develop a graphic to represent it.

Steps.

Analyst observes and records information about the process

One-on-one interviews with those familiar with the process

A graphic model of the process is developed based on these interviews

Group meetings with personnel familiar with process

The analyst records the discussion of the meeting.

A graphic model of the process is developed based on the group meetings

https://nraoiekc.blogspot.com/2019/12/understanding-process-plans-by.html


Value Addition by IEs

What is the value to be added by IEs?

What is New in  IE in 2025-2026?

There is a bulletin board to record some new developments in engineering and industrial engineering.

X-Platform - Industrial Engineers' Participation

Is IE a popular topic on X-Platform?

YouTube - Industrial Engineering Videos by Narayana Rao and Others.

YouTube - the video sharing platform has many videos related to industrial engineering.

Principles of Industrial Engineering - Taylor - Narayana Rao - IISE 2017 Pittsburgh Conference Paper


Engineering in Industrial Engineering - Product/Process Industrial Engineering

Zeal for Industrial Engineering - Productivity - Cost Reduction

Industrial engineers must have the zeal to contribute to the engineering professions as well as society through industrial engineering - the discipline that focuses on cost reduction through productivity increasing engineering changes and innovations.

Important to recognize.
April 4 - Birthday of Charles Buxton Going (1863)  - Principles of Industrial Engineering - Book in 1911
April - C.B. Going Month of Industrial Engineering and Productivity Management


You can see the list of theme reveal posts in







Ud. 9.3.2026
Pub. 8.3.2026







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Seven Wastes Model of Taiichi Ohno and Flow Process Chart - Industrial Engineering

Waste Elimination is part of industrial engineering since the discipline began. Waste elimination is part of productivity improvement. Productivity of inputs will increase when their waste is eliminated.

Taiichi Ohno in Toyota Industrial Engineering practice, has identified certain types of waste for particular attention and doubled the productivity of Toyota in comparison to US companies of that day. Thus best practices of tackling these 7 wastes were developed in the Toyota Motors. Shigeo Shingo of JMA was a teacher and consultant to Toyota in this endeavor.

In strategic management text of Thompson and Strickland, best practices implementation in value chain activities is an important step in strategy execution process. Companies world over are trying implement waste elimination practices developed in Toyota in their companies.

Seven Wastes - Taiichi Ohno - page 19 - Toyota Production System


   Waste                          -                   Methods to prevent it.

Waste of overproduction - One cannot produce without a production Kanban. Managing demand 
                                           variability. Reducing time between order receipt and starting of production.

Waste of time on hand (waiting)  - Multiple machines to an operator, all producing as per tact time.

Waste in transportation - Machines in line or flow placed close together

Waste of processing itself - Standardized Methods (plan the process well - process planning)

Waste of stock on hand (inventories) - JIT system - low inventory - SMED - Poka-Yoke

Waste of movement (of workers) - Machine layout changes so that an operator handling multiple machines does not waste movement. Can there be control unit for all the machines at one place only?

Waste of making defective products - Problem solving approach to produce zero defects. 5 Why approach to find where the problem or defect occurred in the earliest stage. Educating and training operators by other team members and management.



Seven Waste Model is also expressed as TIMWOOD

T – Transport – Movement of material, people
I – Inventory – Stock of materials, parts, and finished items
M – Motion – movement of hands and other body parts in operating machines of hand tools
W – Waiting – Men and machines waiting for parts or instructions
O – Over production – Making more than is IMMEDIATELY required
O – Over processing – Tighter tolerances or higher grade materials than are necessary
D – Defects – Items scrapped and rework


Compare the seven waste model with flow process chart


Flow process chart recommends recording and examining 5 items.

Process -   will examine  1.Waste of processing itself,  2. Waste of overproduction

Inspection -  3. Waste of making defective products  - The inspection is only shown as a stage in flow process chart, It needs to be augmented with a record of defects or defectives found during inspection.

Transport - 4. Waste in transportation, 5. Waste of movement (of workers)

Temporary delay - 6. Waste of time on hand (waiting)

Permanent storage - 7. Waste of stock on hand (inventories)

Thus we can see, flow process charts has provided the foundation for analyzing the seven wastes proposed by Taiichi Ohno.

But subsequent persons have indicated Eighth Waste.

Wastage of physical and mental skills of people.

Alan Mogensen identfied this gap in industrial engineering theory and introduced work simplication workshops to involve operators and supervisors in productivity improvement. Subsequently, suggestions scheme became popular. Japanese managers brought more improvements and made operators given large number of suggestions and provided forums for participation.

Please think over this statement of Taylor.

Respect for People - F.W.Taylor -  The Principles of Scientific Management.
Under scientific management the "initiative" of the workmen (their ingenuity) is obtained ...  to a greater extent than is possible under the old system; and in addition to this improvement on the part of the men, the managers assume ... new duties. 



Narayana Rao proposed Ninth waste.

9th Waste - Wastage of Machine Potential, Capability and Power - Wasting Machine's Potential Productivity

Industrial engineering has ignored wastage of potential of machines and equipment even though Taylor has advocated right from his piece rate system paper that for productivity improvement both machine and man are to be analyzed and improved.

Wastage of potential of the machine is recognized in the OEE calculation. Still IEs are yet to develop the area.

9th Waste - Wasting Machine's Potential Productivity -- Elimination - Essential Industrial Engineering Activity


An Interesting exchange of LinkedIn comments regarding Overprocessing


Basant Pandole
Production Engineer | Injection Moulding Specialist | Manufacturing Excellence | Lean Six Sigma | Team Leadership As a Production Engineer at Ganesh Gouri Industries Pvt Ltd, I bring extensive expertise in inj. moulding




In modern manufacturing, data-driven decisions and process efficiency play a critical role in achieving operational excellence.

Process Cycle Efficiency (PCE) = [value-added time/total lead time]*100 

My comment

So is reducing value added time a bad thing?



Reply by Shahrukh Irani
I help any high-mix low-volume (HMLV) manufacturer customize their implementation of Lean

Good point Professor. Reducing VAT corresponds to reduction of the waste of over-processing (one of O's in TIMWOODS). 

Reply be me.
Shahrukh Irani,   Thank you professor - Each processing operation is subjected the question - eliminate? If the processing is required it is to be simplified - means machine time reduction and man time reduction are to be attempted. I have written these two points in a post of mine.

Waste of processing itself - Standardized Methods (plan the process well - process planning)

Over processing in TIMWOODS - O – Over processing – Tighter tolerances or higher grade materials than are necessary.

Seven Wastes Model of Taiichi Ohno and Flow Process Chart - Industrial Engineering
https://nraoiekc.blogspot.com/2013/01/chapter-seven-wastes-model-2013-edition.html


Reply by Basant Pandole


Narayana Rao KVSS,  Great question. In Lean, the goal isn’t to reduce value-added work but to eliminate waste around it so the process flows faster and the ratio of value-added time within total lead time improves.

Reply be me.

Basant Pandole,  Lean is also under criticism. Most of the operations management books now say Lean and TQM are not delivering results as promised and hyped. Totally neglecting value added operations and focusing remaining activities was beneficial for Toyota at that time because Ohno said their value adding steps are no worse than American competitors. So they are creating waste or unnecessary expenditures in other activities. The lean brigade simply generalises it to all companies and in all countries and at all times.

I support Shahrukh Irani's explanation and thank him.



Bibliography

Seven Wastes
http://accountability.wa.gov/leadership/lean/documents/2012_Lean_Conference/Thinking_Tools_Techniques/24/The%207%20Wastes.pdf

Seven Wastes Tool
http://www.gcu.ac.uk/media/gcalwebv2/theuniversity/supportservices/pace/documents/Seven%20Wastes.pdf

Lean for Government: Eliminating the seven wastes
http://ntrs.nasa.gov/search.jsp?R=20120016881

Lean in Government
http://www.epa.gov/lean/government/

Seven Wastes in Preventive Maintenanee Programs
http://www.techcorr.com/news/Articles/Article.cfm?ID=2450


Updated 15.3.2026, 25.3.2022, 18.10.2021, 23 August 2017, 15 November 2013


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Industrial Engineering Encyclopedia - A to Z of Industrial Engineering - Principles, Methods, Techniques, Tools and Applications

Industrial Engineering is System Efficiency Engineering. - Narayana Rao K.V.S.S.


To make the system efficient, its components also have to be efficient, and adjustments to the component parameters have to be done to ensure maximum performance from the system.

F.W. Taylor hailed as the Father of Industrial Engineering advocates that designs and processes have to be improved at element level in processes and systems.






Interest in this article was rekindled by a LinkedIn Post.
https://www.linkedin.com/posts/mercadokorina_industrialengineering-konnectkonsult-technology-activity-7152157739765354497-w1ZZ  by Korina “Kon” MercadoKorina “Kon” Mercado. Continuous Improvement @Amazon - Industrial Engineer  @KonnectKonsult @OptimizeLifeSeries 


Suggested for inclusion

Assignment

"Assignment"
It is taught in Operations Research Course as part of Linear Programming. Proper assignment of jobs to operators in a shop will reduce the time taken to complete all the jobs and thus increase productivity. It is part of production planning and control at shop level.


Benchmarking, Bonus

Benchmarking.

IEs have to monitor and benchmark with productivity improvements of others.
Applied Industrial Engineering. Industry 4.0 Technologies. List of Industry 4.0 Light Houses - WEF - McKinsey - Have You Benchmarked with the Best in Industry 4.0 Implementation?

Comfort Survey, Cutting Parameters Analysis,

Defects Analysis,

Elementary Rate Fixing

Fatigue Study, Flow Process Chart, Flow Diagram

Goal Setting for Operators

Incentives

Job Evaluation


Method Study, MTM, Methods Engineering, Motion Study

Operation Analysis

Process Charts

Synthetic Time Determination

Therblig Analysis, Time Study

Work Simplification, Work Study



------------------------


New. Popular E-Book on IE,

Introduction to Modern Industrial Engineering.  #FREE #Download.

In 0.1% on Academia.edu. 9800+ Downloads so far.

https://academia.edu/103626052/INTRODUCTION_TO_MODERN_INDUSTRIAL_ENGINEERING_Version_3_0




Online Free Access Handbook of Industrial Engineering includes all modules of IE Online Course Notes.


Industrial Engineering Methods and Techniques - YouTube Videos

Principles of Industrial Engineering
_______________

_______________

Industrial Engineering - Principles, Methods and Techniques - YouTube Videos Playlist

https://www.youtube.com/watch?v=pU8CdWfZZdU&list=PL6W3qaSriFEjxHCNr9K_w7Bs6JskncWmq
_______________

Industrial Engineering Encyclopedia 

A to Z of Industrial Engineering - Principles, Methods, Techniques, Tools and Applications

A


Analysis - Productivity Analysis of New Technology - Applied Industrial Engineering
Applied Industrial Engineering - Process Steps

B


Behavioral Approach to Productivity and Productivity Management

C



Chief Productivity Officer - Value Addition of the Organizational Role and Position
Concurrent Industrial Engineering








IE Course 


1. Industrial Engineering - Introduction
http://nraomtr.blogspot.com/2011/12/industrial-engineering-introduction.html


4. Productivity Science of Machine - Machining - F.W. Taylor

5. Productivity Science of Human Effort - F.W. Gilbreth

6. Product Industrial Engineering


8. Operations Research - An Efficiency Improvement Tool for Industrial Engineers

9. Industrial Engineering Statistics - Application of Statistics in Industrial Engineering Practice

10. Industrial Engineering Economic Analysis: Engineering Economy or Engineering Economics: Economic Decision Making by Engineers

11. Human Effort Industrial Engineering

12. Industrial Engineering Measurements
Cost Measurement - Essential Activity of Industrial Engineering



Industrial Engineering Practice in Top Global Manufacturing Companies

Articles Created for A to Z Challenge 2020

1. Apple  - Former Chairman industrial engineer - Current CEO industrial engineer

2. BMW

3. CISCO, Coca-Cola, Continental

Old article: Productivity Success Story - Coca Cola

4. DowDuPont  - Now split into Dow, Dupont and Coverta

Old article:  We have to innovate and We have to be productive - Ellen Kullman - CEO Dupont

5. Enel - Eni

6. Ford - Fujitsu

7. GlaxoSmithKline - GE - General Motors

8. Honda - Hyundai

9. Intel

10. Johnson & Johnson - Jardine Matheson

Old article:  Design To Value - Design For Value (DTV) at Johnson & Johnson

11. Kia Motors

12. Lockheed Martin

13. Mitsubishi - Mitsui

14. Novartis 

15. Otis Elevators

16. Procter & Gamble 

17. Qualcomm

18. Renault

19. Saint-Gobain 

20. Toyota

21. United Technologies

22. Volkswagen

23. Wilmar International

24. Xiaomi Corporation

25. Yamaha Motors

26. ZF Friedrichshafen








K



Kaizen -  Articles 

Kaizen eno Yon Dankai - Improvement in 4 Steps - History of Kaizen in Japan

Rules for Successful Kaizen Management


Kaizen - Engaging Front-Line Staff in Continuous Improvements - Industrial Engineering

Leading and Managing Kaizen Events

Agile Kaizen

Kaizen - The Japanese Style Productivity Improvement Methodology

Industrial Engineering is Kaizen in Engineering

Kobetsu Kaizen - Focused Improvement of Machine and Machine Work in TPM

Front Line Kaizen for Product and Process Industrial Engineering


Gadget-based improvement is widespread as improvement activities that can not only eliminate losses but also inspire the workplace.

Karakuri Kaizen - Introduction

Industrial Engineering is Kaizen Engineering

Toyota Kaizen Methods: Six Steps to Improvement - 2010 - Book Information

Kaizens - Production Improvement Ideas Implemented - India - Kaizen Eye

Kaizen Assembly: Designing, Constructing, and Managing a Lean Assembly Line - Book Information

Kaikaku: The Power and Magic of Lean : a Study in Knowledge Transfer - 2004 - Norman Bodek - Book Information

Kaizen Costing and Kaizen Cost Management


Knowledge Required for Value Engineering Application and Practice

L


Leadership and Productivity

Levels of  Industrial Engineering in an Enterprise -   Enterprise Level to Engineering Element Level Industrial Engineering

Industrial Engineering Strategy - Enterprise Level Industrial Engineering

https://nraoiekc.blogspot.com/2014/11/industrial-engineering-strategy.html

Facilities Industrial Engineering

https://nraoiekc.blogspot.com/2020/05/facilities-industrial-engineering.html

Process Industrial Engineering - Process Machine Effort Industrial Engineering - Process Human Effort Industrial Engineering.

https://nraoiekc.blogspot.com/2021/11/process-industrial-engineering-process.html

Operation Industrial Engineering.

https://nraoiekc.blogspot.com/2013/11/approach-to-operation-analysis-as-step.html

Element Level Analysis in Industrial Engineering

Taylor's Industrial Engineering System - First Proposal 1895 - Productivity Improvement of Each Element of the Process



M


Machine Based Industrial Engineering - Japanese Practice - Karakuri Kaizen

Productivity Science - Determinants of Productivity
Productivity Science of Machining I - Industrial Engineering Research by Taylor Part 1.
For every basic production process we need productivity science.


Process Improvement - Process Industrial Engineering - Methods and Techniques













Processes - Examples and Illustrations


Q


Quality Improvement - Poka Yoke in Software - Information Systems

R


Research Papers - Industrial Engineering

S


Seven Wastes Model
Simulation and Forecasting - A Note for Industrial Engineers for Industrial Engineering 4.0 (IE 4.0)

Six Sigma





Taylor Society Bulletin on Industrial Engineering - Taylor's Way




Techniques of Value Analysis and Engineering by L.D. Miles, Book Information, Review and Summary



Videos on Industrial Engineering

Engineering in Industrial Engineering - Product/Process Industrial Engineering

Principles of Industrial Engineering - Taylor - Narayana Rao - IISE 2017 Pittsburgh Conference Paper



W



Water Productivity - Why Waste Water? - Eliminate The Water Waste
Work Simplification Education and Training to All - Principle of Industrial Engineering






This blog post is made on 26 June 2018.
On this day, this blog attained the

Global Number 1 Industrial Engineering Blog rank in Google search 

for the term  "Industrial Engineering" Blog.

Updated on  14.1.2024, 10.3.2023, 22.4.2022,   17 July 2021, 10 May 2020
22 September 2019,   2 December 2018,  8 November 2018,  8 August  2018
First posted on 26 June 2018




2026 A to Z Blogging April Challenge - Theme Reveal Post


Important dates for 2026:
March 9 - 14 Theme Reveal
March 23 - April 4 Sign-up
May 4 - 9 Reflections
May 11 - Road Trip opens
------------------

If you are a blogger join the challenge.


You can reveal your theme.
Visit  


#AtoZChallenge

Topics for 2026

Applied IE - Agentic AI

Behavioral Aspects in  IE

Cost Reduction and Cost Management by Industrial Engineers

Decision Making in IE

Effectiveness of IE

Flow Analysis and Improvement IE

Goals of IE

Health Aspects of IE

Innovations by IEs

Job Shop IE - Shahrukh Irani

Knowledge Management for IE

Low Cost Products and Processes for IE

Management Module for IE

New Technologies Adoption by IE in Processes Under Their Productivity Management

Operations Management and IE

Production and Industrial Engineering - A Popular Branch of Engineering

Quality Related Interventions by IEs

Respect for People and Personal Relations - Assertion by F.W. Taylor

Society Prosperity - Industrial Engineering Effectiveness

Total Industrial Engineering

Understanding Processes

Value Addition by IEs

What is New in  IE in 2025-2026?

X-Platform - Industrial Engineers' Participation

YouTube - Industrial Engineering Videos by Narayana Rao

Zeal for Industrial Engineering - Productivity - Cost Reduction



-----------------


2025

Online Education/Training Session on "Effective Industrial Engineering and Productivity Management."

I developed an online education/training session on "Effective Industrial Engineering and Productivity Management." I can present the session in one hour, one and half hour or two-hour long sessions. The sessions will be valuable when company industrial engineers and other engineers and managers attend as a group. Industrial engineers require active cooperation and participation of other engineers and managers in their studies and projects. Hence a common presentation and discussion on effectiveness will be very useful.


Supporting Information.

Effective Industrial Engineering - Some Thoughts by Narayana Rao K.V.S.S.

Effective industrial engineering has to satisfy management about the contribution it made to the organization year after year.

The prime contribution of IE has to be cost reduction through productivity improvement.

https://nraoiekc.blogspot.com/2025/07/effective-industrial-engineering-some.html





2023 Year - Blogging Statistics
https://bloggingwizard.com/blogging-statistics/   - 10,000 visitors per month is a good performance for a blog.

Blog posts for the 2023 Challenge


Date
April          Post



4                 Courses - Industrial Engineering

5                 Dissertations - Industrial Engineering



8                  Goals of  Industrial Engineering

10                Human Effort Industrial Engineering


12               Journals of  Industrial Engineering

13                Knowledge Management for Industrial Engineering    

 


18.               Organizing Industrial Engineering Department    











30.                 Zenith of Industrial Engineering                                  


This year it is my theme reveal post for 2023. The theme is "A to Z of Industrial Engineering."

In industrial engineering, this blog is global number one. Industrial engineering helps the world by helping producers to manufacture or produce more of the goods and services desired by the society with the same resources.

The main components of industrial engineering are machine effort industrial engineering and human effort industrial engineering.

I am going to write 26 new blog articles starting from 1 April 2023 as per the requirements of A to Z Challenge. 

2023

Happy. This year this blog registered 2 million cumulative page views in blogger statistics. Thank you readers. You motivate me to keep updating the blog.

2 Million Page Views in Blogger Statistics - 20 March 2023 - Industrial Engineering Knowledge Center Blog.
2 Million Page View Registered by Industrial Engineering Knowledge Center Blog on 20 March 2023.

10.3.2024
Very happy to notice that in the last year Industrial Engineering Knowledge Center Blog  got  0.276 million page views in blog statistics.


New Writing Project

Industrial Engineering: Productivity Improvement of Systems and Processes - Book by Narayana Rao K.V.S.S.


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