Introduction To Quality Engineering (ASQ)

Introduction To Quality Engineering (ASQ)

Course Description


Introduction

 

Welcome to the "Introduction to Quality Engineering (ASQ)" training course developed by Cambridge for Global Training. This course provides a comprehensive introduction to quality engineering principles and practices as defined by the American Society for Quality (ASQ). Quality engineering plays a crucial role in ensuring that products and services meet or exceed customer expectations, and this course will equip participants with the foundational knowledge and skills needed to excel in this field.

 

Course Objectives

By the end of the course, participants will be able to:

 

  • Understand the role and importance of quality engineering in ensuring product and service quality.
  • Learn key quality engineering concepts and principles, including quality planning, control, and improvement.
  • Familiarise with quality tools and techniques commonly used in quality engineering projects.
  • Apply quality engineering methodologies to identify, analyse, and solve quality-related issues.
  • Gain insight into the standards and frameworks established by ASQ for quality engineering.
  • Prepare for further certification or training in quality engineering through ASQ.

 

Who Should Attend

 

  • Quality engineers and quality assurance professionals seeking to enhance their skills and knowledge.
  • Manufacturing engineers involved in quality control and process improvement initiatives.
  • Project managers and team leaders responsible for ensuring product and service quality.
  • Professionals interested in pursuing a career in quality engineering or obtaining ASQ certification.
  • Anyone involved in product development, production, or service delivery who wishes to understand quality engineering principles and practices.
Course Outline


Unit 1: Introduction to Quality Engineering

 

  • Definition and importance of quality engineering
  • Role of quality engineering in product and service development
  • Evolution of quality engineering principles and methodologies
  • Overview of ASQ and its role in defining quality engineering standards
  • Career opportunities and certification pathways in quality engineering

 

Unit 2: Quality Planning and Control

 

  • Quality planning processes and techniques
  • Establishing quality objectives and requirements
  • Quality control methods and tools (e.g., statistical process control, control charts)
  • Documenting and maintaining quality plans and procedures
  • Continuous improvement in quality planning and control processes

 

Unit 3: Quality Improvement Techniques

 

  • Problem-solving methodologies (e.g., DMAIC, PDCA)
  • Root cause analysis techniques (e.g., 5 Whys, fishbone diagram)
  • Process improvement tools (e.g., Lean, Six Sigma)
  • Design of experiments (DOE) for quality improvement
  • Implementing and sustaining quality improvement initiatives

 

Unit 4: Quality Assurance and Compliance

 

  • Overview of quality assurance principles and practices
  • Auditing and compliance assessment methodologies
  • Regulatory and industry standards for quality assurance
  • Ensuring compliance with quality management systems (e.g., ISO 9001)
  • Risk management in quality assurance processes

 

Unit 5: Measurement and Analysis in Quality Engineering

 

  • Measurement system analysis (MSA) techniques
  • Statistical analysis for quality engineering (e.g., hypothesis testing, regression analysis)
  • Data collection and analysis methods
  • Interpreting and presenting quality data effectively
  • Using data to drive continuous improvement initiatives
RELATED COURSES

Courses You May Like

Introduction To Quality Engineering (ASQ)
REF code: A-1189
Date: 16 - 20 Dec 2024
City: Singapore
Language: English
Price: 5500 £

Course Description


Introduction

 

Welcome to the "Introduction to Quality Engineering (ASQ)" training course developed by Cambridge for Global Training. This course provides a comprehensive introduction to quality engineering principles and practices as defined by the American Society for Quality (ASQ). Quality engineering plays a crucial role in ensuring that products and services meet or exceed customer expectations, and this course will equip participants with the foundational knowledge and skills needed to excel in this field.

 

Course Objectives

By the end of the course, participants will be able to:

 

  • Understand the role and importance of quality engineering in ensuring product and service quality.
  • Learn key quality engineering concepts and principles, including quality planning, control, and improvement.
  • Familiarise with quality tools and techniques commonly used in quality engineering projects.
  • Apply quality engineering methodologies to identify, analyse, and solve quality-related issues.
  • Gain insight into the standards and frameworks established by ASQ for quality engineering.
  • Prepare for further certification or training in quality engineering through ASQ.

 

Who Should Attend

 

  • Quality engineers and quality assurance professionals seeking to enhance their skills and knowledge.
  • Manufacturing engineers involved in quality control and process improvement initiatives.
  • Project managers and team leaders responsible for ensuring product and service quality.
  • Professionals interested in pursuing a career in quality engineering or obtaining ASQ certification.
  • Anyone involved in product development, production, or service delivery who wishes to understand quality engineering principles and practices.

Course Outline


Unit 1: Introduction to Quality Engineering

  • Definition and importance of quality engineering
  • Role of quality engineering in product and service development
  • Evolution of quality engineering principles and methodologies
  • Overview of ASQ and its role in defining quality engineering standards
  • Career opportunities and certification pathways in quality engineering

Unit 2: Quality Planning and Control

  • Quality planning processes and techniques
  • Establishing quality objectives and requirements
  • Quality control methods and tools (e.g., statistical process control, control charts)
  • Documenting and maintaining quality plans and procedures
  • Continuous improvement in quality planning and control processes

Unit 3: Quality Improvement Techniques

  • Problem-solving methodologies (e.g., DMAIC, PDCA)
  • Root cause analysis techniques (e.g., 5 Whys, fishbone diagram)
  • Process improvement tools (e.g., Lean, Six Sigma)
  • Design of experiments (DOE) for quality improvement
  • Implementing and sustaining quality improvement initiatives

Unit 4: Quality Assurance and Compliance

  • Overview of quality assurance principles and practices
  • Auditing and compliance assessment methodologies
  • Regulatory and industry standards for quality assurance
  • Ensuring compliance with quality management systems (e.g., ISO 9001)
  • Risk management in quality assurance processes

Unit 5: Measurement and Analysis in Quality Engineering

  • Measurement system analysis (MSA) techniques
  • Statistical analysis for quality engineering (e.g., hypothesis testing, regression analysis)
  • Data collection and analysis methods
  • Interpreting and presenting quality data effectively
  • Using data to drive continuous improvement initiatives
Facebook Twitter WhatsApp Gmail Telegram LinkedIn Copy Link