Importance of calibration and assurance in quality control

1. Unit: 2 Lecture: 9
Dr. Jayanta Kr. Mahato
Associate Professor
Mechanical Engineering Dept.
Shobhit University, Meerut
Importance of calibration
and assurance in quality
control

2. Importance of calibration and assurance in quality control
 Accuracy and Reliability
 Consistency and Consensus: Calibration ensures consistency in measurements over time and
across different instruments or locations.
 Compliance and Standards: Many industries are subject to regulatory requirements and standards
that mandate calibration and quality assurance practices.
 Risk Reduction: Failure to calibrate instruments properly can lead to inaccurate measurements,
which can have serious consequences, such as production defects, safety hazards, or regulatory
non-compliance.
 Cost Savings
 Customer Satisfaction
 Continuous Improvement
 Data Integrity: In industries where data integrity is crucial, such as pharmaceuticals or healthcare,
accurate measurements and quality assurance are essential for maintaining the integrity and
validity of data generated.

3. Definition of calibration in the context of quality control
 Defination: Calibration refers to the process of comparing the measurements or
performance of a device, instrument, or system against a known reference standard to
determine its accuracy and reliability. Calibration ensures that the device or instrument
provides measurements that are traceable, accurate, and consistent within specified
tolerances or limits.
 Key elements of the definition of calibration in the context of quality control include:
 Comparison
 Reference Standard
 Accuracy and Reliability: Main goal is to assess and improve the accuracy and reliability
of the measurements obtained from the device.
 Tolerances or Limits: Acceptable tolerances or limits within which the device's
measurements must fall to be considered accurate and reliable.

4. Definition of Assurance in the context of quality control
 Defination: It refers to the systematic set of activities, processes, and procedures designed to
ensure that products or services consistently meet specified quality standards, requirements, and
expectations. Quality assurance (QA) encompasses a proactive approach to quality management
aimed at preventing defects, errors, or deviations from occurring during the production or service
delivery process.
 Key elements of the definition of assurance in the context of quality control include:
 Consistency and Compliance
 Preventative Approach: Assurance involves evaluating and improving the effectiveness of
processes, workflows, and systems to enhance overall quality and efficiency.
 Documentation and Auditing: QA involves documenting quality processes, procedures, and
controls and conducting regular audits or inspections to verify compliance and identify areas for
improvement.
 Continuous Improvement
 Customer Focus

5. Importance of accurate measurements in various industries
 Manufacturing:
 Quality Control: Accurate measurements ensure that manufactured products meet
design specifications and quality standards, reducing defects and rework.
 Process Optimization: Precise measurements help optimize manufacturing processes,
minimizing waste and improving efficiency.
 Inventory Management: Accurate measurements of raw materials and finished goods
support effective inventory management, preventing overstocking or stockouts.
 Healthcare:
 Patient Care
 Medical Devices: Precise measurements are critical for the design, calibration, and
operation of medical devices.
 Research

6. Importance of accurate measurements in various industries
 Construction and Engineering:
 Structural Integrity: Accurate measurements ensure the structural integrity of buildings,
bridges, roads, and other infrastructure projects, enhancing safety and durability.
 Surveying and Mapping: Precise measurements help optimize manufacturing processes,
minimizing waste and improving efficiency.
 Environmental Monitoring: Accurate measurements of air and water quality, noise levels,
and soil properties support environmental impact assessments and regulatory
compliance.
 Agriculture:
 Crop Management
 Livestock Management: Precise measurements of animal health, weight, and feed
consumption support effective livestock management and breeding programs.
 Food Safety

7. Importance of accurate measurements in various industries
 Pharmaceuticals and Biotechnology:
 Drug Development: Accurate measurements support the formulation, testing, and quality
control of pharmaceutical products, ensuring efficacy, safety, and regulatory compliance.
 Bioprocessing: Precise measurements are essential for monitoring and controlling bioprocess
parameters such as pH, temperature, and cell density in biotechnology applications.
 Research and Development
 Energy and Utilities:
 Resource Management
 Renewable Energy: Precise measurements are crucial for monitoring and optimizing
renewable energy sources such as solar, wind, and hydroelectric power generation.
 Emissions Monitoring: Accurate measurements of emissions and pollutants help
industries comply with environmental regulations, mitigate environmental impact, and
improve air and water quality.

8. Types of Calibration
1. Instrument calibration
2. Process calibration
3. Software calibration
1. Instrument calibration: Instrument calibration is the process of comparing the
measurements of an instrument against a known standard to determine its accuracy and
correct any discrepancies.
 Steps
 Planning
 Selection of Standards
 Execution of Calibration Procedures
 Data Analysis and Documentation
 Adjustment and Maintenance
 Quality Assurance and Auditing

9. Types of Calibration
2. Process calibration: Process calibration is the systematic process of adjusting and
verifying the performance of instruments or equipment used in industrial processes to
ensure they produce accurate and reliable measurements.
 Purpose
 Process calibration is essential for maintaining the accuracy, reliability, and consistency of
measurement instruments and control systems used in industrial processes.
 It ensures that process variables such as temperature, pressure, flow rate, level, pH,
conductivity, and others are measured accurately and within specified tolerances.
 Step-by-step explanation of the calibration process:
 Planning
 Selection of calibration standards
 Execution of calibration procedures
 Data analysis and documentation
 Adjustment and maintenance, if required

10. Types of Calibration
3. Software calibration: Software calibration refers to the process of verifying and
adjusting the performance of software applications to ensure they operate correctly,
reliably, and in accordance with specified requirements.
 Purpose
 Software calibration ensures that software applications perform as intended and meet the
desired functionality, performance, and quality standards.
 It involves verifying that the software produces accurate results, behaves predictably
under various conditions, and meets user expectations.
 Step-by-step explanation of the calibration process:
 Planning
 Selection of calibration standards
 Execution of calibration procedures
 Data analysis and documentation
 Adjustment and maintenance, if required

11. Calibration Standards
 National Institute of Standards and Technology (NIST)
 International Organization for Standardization (ISO)
 American National Standards Institute (ANSI)
 National Institute of Standards and Technology (NIST): NIST is a physical sciences
laboratory and a non-regulatory agency of the United States Department of
Commerce. NIST's mission is to promote innovation and industrial competitiveness by
advancing measurement science, standards, and technology in ways that enhance
economic security and improve quality of life.
 Location: NIST is headquartered in Gaithersburg, Maryland, with additional facilities in
Boulder, Colorado, and various satellite offices across the United States.
 Research and Services, Standardization, Cybersecurity, Interagency Coordination,
Publications and Resources

12. Calibration Standards
 International Organization for Standardization (ISO): ISO is an independent,
non-governmental international organization that develops and publishes
voluntary international standards. ISO standards cover almost all aspects of
technology and business, from food safety to healthcare to agriculture and
beyond.
 American National Standards Institute (ANSI): ANSI is a private, non-profit
organization that oversees the development of voluntary consensus standards
for products, services, processes, systems, and personnel in the United States.
It serves as the national coordinator for standards development and conformity
assessment activities in various industries.

13. Best Practices
 Regular calibration schedules
 Documentation and traceability
 Training and competency assessment
 Continuous improvement and review

14. Thank You
Any Query?