Saturday 7 January 2023

What is Risk Analysis 

It is investigation of all available information about product and its associated processes to identify hazards  and to estimate risk.

 



Friday 9 August 2019

Failure Mode Effect Analysis(continued)

Failure Mode Effect analysis  also helps in :


  1. Correctly identifies failure modes for  product functions
  2. Use data currently available in  company to calculate ability to detect product design related failure modes
  3. Accurately predict the likelihood of a design related root cause resulting in specific failure modes.
  4. Identify severity rankings for  specific failure modes for  product designs and manufacturing risks.
  5. Use local and or end user level effects to identify and manage product and manufacturing risks.
  6. Identify current controls for the design and manufacturing processes.
  7. Identify corrective actions that will improve manufacturing and design controls and eliminate the root causes of the identified Potential failure mode.
  8. Identify specific features producing functions for each manufacturing process steps and potential failure modes for each of these steps.
  9. Identify root manufacturing causes for  potential process failure modes.
  10. Assess the effectiveness of manufacturing controls to detect process failure modes.
  11. Determine the likelihood that a specific cause will result in process failure mode and the effects of that of failure mode on process and product. 

IQC Services: Failure Mode and Effects Analysis-FMEA

IQC Services: Failure Mode and Effects Analysis-FMEA: Failure Mode and Effect Analysis(FMEA) is one of the most powerful and practical reliability tool in manufacturing today.Many companies use...

Wednesday 7 August 2019

IQC Services: Failure Mode and Effects Analysis-FMEA

IQC Services: Failure Mode and Effects Analysis-FMEA: Failure Mode and Effect Analysis(FMEA) is one of the most powerful and practical reliability tool in manufacturing today.Many companies use...

Failure Mode and Effects Analysis-FMEA

INTRODUCTION
Ahigh Quality Product that conforms to intended purpose that usually results in High customer satisfaction. The best way to achieve this is to builtd Quality in design upfront in manufacturing itself rather than restoring to rigorous inspection later on.
A useful quality Engineering Tool for that purpose is Failure Mode effect Analysis (FMEA). 
Failure Mode and Effect Analysis (FMEA) is one of the most powerful and practical reliability tools in manufacturing today .Many companies used FMEA to successfully improve product designs and Manufacturing processes. It has been referenced in USFDA Pre-production quality planning bulletin (FDA 90-4236) and in ISO 9001 quality standards as an effective tool for ensuring quality product design and manufacture. New standards for medical device risk analysis (EN 1441 and ISO 14971-1) as well as FMEA(IEC 812) specifically address the application of FMEA .It can also be use for product development,design and manufacturing. It also focuses on design and process FMEA .It can also be used to improve field service efforts and the system. It also helps in identifying potential failure modes,assess the risk of failure,evaluate possible causes and implement solutions. It also helps to establish priorities and organize resources to correct potential problems. 

FEMA can be used to:

  1. Design your products right the first time.
  2. Improve the control over your design process
  3. Reduce the cost and improve the quality of your manufacturing processes.
  4. Reduce the time to get your products to market.
  5. Focus on function based features during product deign and manufacturing planning.
  6. Eliminate non value added manufacturing steps
  7. Prevent costly and time consuming engineering design changes
  8. Improve product performance and customer satisfaction
  9. Establish and verify manufacturing process capability
  10. Improve product design validation process
  11. Implement effective manufacturing controls such as SPC,control plans and CpK calculations.
  12. Develop manufacturing specifications that meet your product design requirements.
  13. Integrate design and process FMEA into TQA and reliability program
  14. Predict potential design and manufacturing related problems early,before they occur so you can take corrective actions before damage is done.
  15. Use FMEA to avoid costly product field failures.
  16. Apply a systematic approach to integrating information from customer service, field complaints, reliability studies, quality and inspection data and testing data to improve new product designs and manufacturing processes.




Wednesday 9 December 2015

Quality Management Practices for Organizational Excellence

To achieve Organizational Excellence one must inculcate Quality Management Practices.The final product is Organizational Excellence which is outcome of two main components which are blended together by all stakeholders.These components are Strategy and Culture. In short we have to cultivate "Quality" as Strategy and "Quality" as Culture,if we have attain Organizational Excellence.It is conscious and deliberate step or plan of action to develop an organizational distinctive competence."Quality" as culture of behavioral pattern of all the stakeholders in terms of belief,values and attitude.For competitive organization of future,to achieve and sustain Quality management,Quality as Culture and Strategy as scientific pursuit is essential to achieve it.