11,381 Quality Engineer jobs in India

Company Description

TAK Automation, accredited with ISO 9001–2015, is based in Coimbatore, India and specializes in precision machined products made from ferrous and nonferrous metals, as well as aluminum. The company is led by highly qualified professionals with extensive experience in the fields of aluminum and steel foundry, CNC machining, casting, forging, welding, heat treatment, special processes, and R&D. TAK Automation is dedicated to delivering high-quality products and excelling in customer service.

Role Description

This is a full-time, on-site role for a Manufacturing Quality Engineer located in Coimbatore. The Manufacturing Quality Engineer will be responsible for ensuring quality control throughout the manufacturing process, conducting quality audits, and implementing quality management systems. The role includes tasks such as quality assurance, quality engineering, and maintaining compliance with industry standards.

Qualifications

• Experience in Quality Control and Quality Assurance
• Skills in Quality Engineering and Quality Management
• Proficiency in Quality Auditing procedures
• Strong problem-solving and analytical skills
• Excellent written and verbal communication skills
• Ability to work independently and collaboratively
• Experience in the manufacturing industry is a plus
• Bachelor's degree in Engineering or related field

Key Roles and Responsibilities

1. Quality System Development and Maintenance

The quality engineer is responsible for developing, implementing, and maintaining the Quality Management System (QMS). This includes establishing and documenting procedures, work instructions, and standards that align with industry certifications like ISO 9001 or IATF 16949. They ensure the machine shop is in compliance with all relevant regulations and customer requirements.

2. Quality Planning and Process Control

They play a central role in the planning phase of production. This includes:

• Interpreting engineering drawings and GD&T (Geometric Dimensioning and Tolerancing): Translating design specifications into actionable quality control plans.
• Developing inspection plans: Creating detailed plans for what to inspect, when to inspect it, and which tools to use at each stage (e.g., raw material, in-process, and final inspection).
• Implementing Statistical Process Control (SPC): Using statistical methods and control charts to monitor key process variables (like cutting speed and feed rate) to ensure the process remains stable and consistent.
• Conducting First Article Inspection (FAI): Performing a thorough inspection of the first part produced in a new production run to ensure it meets all specifications before mass production begins.

3. Root Cause Analysis and Corrective Actions

When a defect or non-conformance occurs, the quality engineer leads the investigation. They:

• Conduct root cause analysis: Use problem-solving methodologies (like the 5 Whys or Fishbone diagrams) to identify the underlying cause of the issue.
• Implement Corrective and Preventive Actions (CAPA): Develop and implement solutions to fix the current problem and prevent it from recurring in the future.
• Manage non-conforming materials: Ensure that defective parts are properly quarantined, dispositioned, and accounted for to prevent them from reaching the customer.

4. Inspection and Metrology

A core responsibility involves the hands-on inspection of parts. This requires a deep understanding of metrology and proficiency with various measurement tools:

• Manual tools: Using calipers, micrometers, and bore gauges for basic measurements.
• Advanced equipment: Operating and programming sophisticated machinery like a CMM (Coordinate Measuring Machine) to measure complex geometries and tight tolerances.
• Surface finish analysis: Using profilometers to ensure the surface roughness of parts meets specifications.

5. Continuous Improvement

The quality engineer is a champion of continuous improvement. They analyze quality data, identify trends, and lead initiatives to enhance product quality and process efficiency. This can involve:

• Data analysis: Using software to analyze quality metrics, such as scrap rates, first-pass yield, and customer complaints.
• Leading improvement projects: Heading projects focused on reducing defects, improving process capability, and optimizing production workflows.
• Training: Training machine operators and other staff on new quality procedures, standards, and the proper use of inspection equipment.

• Manufacturing

Company Description

TAK Automation, accredited with ISO 9001–2015, is based in Coimbatore, India and specializes in precision machined products made from ferrous and nonferrous metals, as well as aluminum. The company is led by highly qualified professionals with extensive experience in the fields of aluminum and steel foundry, CNC machining, casting, forging, welding, heat treatment, special processes, and R&D. TAK Automation is dedicated to delivering high-quality products and excelling in customer service.

Role Description

This is a full-time, on-site role for a Manufacturing Quality Engineer located in Coimbatore. The Manufacturing Quality Engineer will be responsible for ensuring quality control throughout the manufacturing process, conducting quality audits, and implementing quality management systems. The role includes tasks such as quality assurance, quality engineering, and maintaining compliance with industry standards.

Qualifications

• 5 years Min . Experience in Quality Control and Quality Assurance
• Skills in Quality Engineering and Quality Management
• Proficiency in Quality Auditing procedures
• Strong problem-solving and analytical skills
• Excellent written and verbal communication skills
• Ability to work independently and collaboratively
• Experience in the manufacturing industry is a plus
• Bachelor's degree in Engineering or related field

Key Roles and Responsibilities

1. Quality System Development and Maintenance

The quality engineer is responsible for developing, implementing, and maintaining the Quality Management System (QMS). This includes establishing and documenting procedures, work instructions, and standards that align with industry certifications like ISO 9001 or IATF 16949. They ensure the machine shop is in compliance with all relevant regulations and customer requirements.

2. Quality Planning and Process Control

They play a central role in the planning phase of production. This includes:

• Interpreting engineering drawings and GD&T (Geometric Dimensioning and Tolerancing): Translating design specifications into actionable quality control plans.
• Developing inspection plans: Creating detailed plans for what to inspect, when to inspect it, and which tools to use at each stage (e.g., raw material, in-process, and final inspection).
• Implementing Statistical Process Control (SPC): Using statistical methods and control charts to monitor key process variables (like cutting speed and feed rate) to ensure the process remains stable and consistent.
• Conducting First Article Inspection (FAI): Performing a thorough inspection of the first part produced in a new production run to ensure it meets all specifications before mass production begins.

3. Root Cause Analysis and Corrective Actions

When a defect or non-conformance occurs, the quality engineer leads the investigation. They:

• Conduct root cause analysis: Use problem-solving methodologies (like the 5 Whys or Fishbone diagrams) to identify the underlying cause of the issue.
• Implement Corrective and Preventive Actions (CAPA): Develop and implement solutions to fix the current problem and prevent it from recurring in the future.
• Manage non-conforming materials: Ensure that defective parts are properly quarantined, dispositioned, and accounted for to prevent them from reaching the customer.

4. Inspection and Metrology

A core responsibility involves the hands-on inspection of parts. This requires a deep understanding of metrology and proficiency with various measurement tools:

• Manual tools: Using calipers, micrometers, and bore gauges for basic measurements.
• Advanced equipment: Operating and programming sophisticated machinery like a CMM (Coordinate Measuring Machine) to measure complex geometries and tight tolerances.
• Surface finish analysis: Using profilometers to ensure the surface roughness of parts meets specifications.

5. Continuous Improvement

The quality engineer is a champion of continuous improvement. They analyze quality data, identify trends, and lead initiatives to enhance product quality and process efficiency. This can involve:

• Data analysis: Using software to analyze quality metrics, such as scrap rates, first-pass yield, and customer complaints.
• Leading improvement projects: Heading projects focused on reducing defects, improving process capability, and optimizing production workflows.
• Training: Training machine operators and other staff on new quality procedures, standards, and the proper use of inspection equipment.

Company Description

VMX Hi-Connectors Private Limited is an ISO certified designer and manufacturer of high-precision connectors and accessories. Initially starting as a connector piece-part manufacturer, VMX Hi-Connectors has evolved into a leading supplier in the interconnect industry, known for developing fully assembled connectors meeting challenging specifications. The company features a fully integrated plant with advanced facilities and a highly qualified workforce that enable them to compete with the best in the industry. In 2017, VMX Hi-Connectors launched a new division specializing in providing complete interconnect solutions for military, aerospace, and industrial applications.

Role Description

This is a full-time on-site role for a Manufacturing Quality Engineer located in Bengaluru. The Manufacturing Quality Engineer will be responsible for implementing and overseeing quality control processes, conducting quality audits, ensuring compliance with quality standards, and managing quality assurance activities. The role involves working closely with the production team to identify and resolve quality-related issues, continuous improvement initiatives, and ensuring that all products meet the specified quality requirements.

Qualifications

• Quality Control and Quality Management skills
• Experience in Quality Engineering and Quality Auditing
• Strong Quality Assurance skills
• Excellent problem-solving and analytical skills
• Ability to work independently and as part of a team
• Bachelor's degree in Engineering, Quality Management, or a related field
• Experience in the manufacturing industry is a plus

Job Title:
Quality Control Engineer

Company:
Elevate Parking Systems LLP

Location:
Bhandarli

Department:
Quality / Production

Reports To:
Senior Quality Control Engineer / Quality Head

About the Company:

Elevate Parking Systems LLP is a leading manufacturer of automated and semi-automated car parking systems. We specialize in the
design, fabrication, and installation
of high-quality steel structures and mechanical systems that deliver innovation, safety, and space efficiency.

Position Overview:

We are seeking a
Quality Control Engineer
with a strong background in
steel fabrication
to ensure that all fabricated components and assemblies meet design specifications, safety standards, and customer requirements. The ideal candidate will have hands-on experience in
weld inspection, dimensional accuracy, and process quality
within a fabrication shop and installation environment.

Key Responsibilities:

• Conduct
  inspection of fabricated steel components
  , sub-assemblies, and finished structures as per approved drawings and standards.
• Verify
  welding quality
  , dimensions, alignment, and surface finish in accordance with WPS and quality plans.
• Ensure
  incoming materials
  (plates, beams, fasteners, etc.) meet specified quality standards and traceability requirements.
• Prepare and maintain
  inspection reports, NCRs, test certificates
  , and other documentation.
• Coordinate with production and design teams to address
  quality deviations and corrective actions
  .
• Supervise and verify
  fit-up, assembly, and final inspection
  prior to dispatch or installation.
• Monitor
  calibration of measuring instruments
  and maintain inspection equipment in proper condition.
• Support
  customer or third-party inspections
  and provide technical clarifications when required.
• Ensure adherence to
  ISO / internal quality management systems
  and safety protocols.
• Promote a culture of
  continuous improvement
  in quality and fabrication processes.

Desired Candidate Profile:

• Qualification:
  Diploma / B.E. / B.Tech in Mechanical Engineering or Production Engineering.
• Experience:
  Minimum
  3–7 years
  experience in Quality Control within a
  Steel Fabrication / Structural / Heavy Engineering
  company.
• Strong knowledge of
  welding processes (MIG, TIG, ARC)
  and inspection techniques (WPS, PQR, WPQ).
• Hands-on experience with
  measuring instruments
  (Vernier, micrometer, dial gauge, height gauge, etc.).
• Familiarity with
  fabrication drawings, GD&T, and tolerance standards
  .
• Exposure to
  NDT methods
  (Visual, MPI, DP) preferred.
• Ability to handle
  documentation, internal audits, and client inspection coordination
  .
• Good communication, observation, and problem-solving skills.

Key Competencies:

• Attention to detail and quality precision
• Technical understanding of fabrication drawings
• Effective coordination with production and project teams
• Knowledge of ISO / QMS standards
• Commitment to safety and compliance

Company Description

TAK Automation, accredited with ISO 9001–2015, is based in Coimbatore, India and specializes in precision machined products made from ferrous and nonferrous metals, as well as aluminum. The company is led by highly qualified professionals with extensive experience in the fields of aluminum and steel foundry, CNC machining, casting, forging, welding, heat treatment, special processes, and R&D. TAK Automation is dedicated to delivering high-quality products and excelling in customer service.

Role Description

This is a full-time, on-site role for a Manufacturing Quality Engineer located in Coimbatore. The Manufacturing Quality Engineer will be responsible for ensuring quality control throughout the manufacturing process, conducting quality audits, and implementing quality management systems. The role includes tasks such as quality assurance, quality engineering, and maintaining compliance with industry standards.

Qualifications

• Experience in Quality Control and Quality Assurance
• Skills in Quality Engineering and Quality Management
• Proficiency in Quality Auditing procedures
• Strong problem-solving and analytical skills
• Excellent written and verbal communication skills
• Ability to work independently and collaboratively
• Experience in the manufacturing industry is a plus
• Bachelor's degree in Engineering or related field

Key Roles and Responsibilities

1. Quality System Development and Maintenance

The quality engineer is responsible for developing, implementing, and maintaining the Quality Management System (QMS)
. This includes establishing and documenting procedures, work instructions, and standards that align with industry certifications like ISO 9001 or IATF They ensure the machine shop is in compliance with all relevant regulations and customer requirements.

1. Quality Planning and Process Control

They play a central role in the planning phase of production. This includes:

• Interpreting engineering drawings and GD&T (Geometric Dimensioning and Tolerancing):
  Translating design specifications into actionable quality control plans.
• Developing inspection plans:
  Creating detailed plans for what to inspect, when to inspect it, and which tools to use at each stage (e.g., raw material, in-process, and final inspection).
• Implementing Statistical Process Control (SPC):
  Using statistical methods and control charts to monitor key process variables (like cutting speed and feed rate) to ensure the process remains stable and consistent.

• Conducting First Article Inspection (FAI):
  Performing a thorough inspection of the first part produced in a new production run to ensure it meets all specifications before mass production begins.

• Root Cause Analysis and Corrective Actions

When a defect or non-conformance occurs, the quality engineer leads the investigation. They:

• Conduct root cause analysis:
  Use problem-solving methodologies (like the 5 Whys or Fishbone diagrams) to identify the underlying cause of the issue.
• Implement Corrective and Preventive Actions (CAPA):
  Develop and implement solutions to fix the current problem and prevent it from recurring in the future.

• Manage non-conforming materials:
  Ensure that defective parts are properly quarantined, dispositioned, and accounted for to prevent them from reaching the customer.

• Inspection and Metrology

A core responsibility involves the hands-on inspection of parts. This requires a deep understanding of metrology and proficiency with various measurement tools:

• Manual tools:
  Using calipers, micrometers, and bore gauges for basic measurements.
• Advanced equipment:
  Operating and programming sophisticated machinery like a
  CMM (Coordinate Measuring Machine)
  to measure complex geometries and tight tolerances.

• Surface finish analysis:
  Using profilometers to ensure the surface roughness of parts meets specifications.

• Continuous Improvement

The quality engineer is a champion of continuous improvement. They analyze quality data, identify trends, and lead initiatives to enhance product quality and process efficiency. This can involve:

• Data analysis:
  Using software to analyze quality metrics, such as scrap rates, first-pass yield, and customer complaints.
• Leading improvement projects:
  Heading projects focused on reducing defects, improving process capability, and optimizing production workflows.
• Training:
  Training machine operators and other staff on new quality procedures, standards, and the proper use of inspection equipment.

Company Description

TAK Automation, accredited with ISO 9001–2015, is based in Coimbatore, India and specializes in precision machined products made from ferrous and nonferrous metals, as well as aluminum. The company is led by highly qualified professionals with extensive experience in the fields of aluminum and steel foundry, CNC machining, casting, forging, welding, heat treatment, special processes, and R&D. TAK Automation is dedicated to delivering high-quality products and excelling in customer service.

Role Description

This is a full-time, on-site role for a Manufacturing Quality Engineer located in Coimbatore. The Manufacturing Quality Engineer will be responsible for ensuring quality control throughout the manufacturing process, conducting quality audits, and implementing quality management systems. The role includes tasks such as quality assurance, quality engineering, and maintaining compliance with industry standards.

Qualifications

• 5 years Min . Experience in Quality Control and Quality Assurance
• Skills in Quality Engineering and Quality Management
• Proficiency in Quality Auditing procedures
• Strong problem-solving and analytical skills
• Excellent written and verbal communication skills
• Ability to work independently and collaboratively
• Experience in the manufacturing industry is a plus
• Bachelor's degree in Engineering or related field

Key Roles and Responsibilities

1. Quality System Development and Maintenance

The quality engineer is responsible for developing, implementing, and maintaining the Quality Management System (QMS). This includes establishing and documenting procedures, work instructions, and standards that align with industry certifications like ISO 9001 or IATF They ensure the machine shop is in compliance with all relevant regulations and customer requirements.

1. Quality Planning and Process Control

They play a central role in the planning phase of production. This includes:

• Interpreting engineering drawings and GD&T (Geometric Dimensioning and Tolerancing): Translating design specifications into actionable quality control plans.
• Developing inspection plans: Creating detailed plans for what to inspect, when to inspect it, and which tools to use at each stage (e.g., raw material, in-process, and final inspection).
• Implementing Statistical Process Control (SPC): Using statistical methods and control charts to monitor key process variables (like cutting speed and feed rate) to ensure the process remains stable and consistent.

• Conducting First Article Inspection (FAI): Performing a thorough inspection of the first part produced in a new production run to ensure it meets all specifications before mass production begins.

• Root Cause Analysis and Corrective Actions

When a defect or non-conformance occurs, the quality engineer leads the investigation. They:

• Conduct root cause analysis: Use problem-solving methodologies (like the 5 Whys or Fishbone diagrams) to identify the underlying cause of the issue.
• Implement Corrective and Preventive Actions (CAPA): Develop and implement solutions to fix the current problem and prevent it from recurring in the future.

• Manage non-conforming materials: Ensure that defective parts are properly quarantined, dispositioned, and accounted for to prevent them from reaching the customer.

• Inspection and Metrology

A core responsibility involves the hands-on inspection of parts. This requires a deep understanding of metrology and proficiency with various measurement tools:

• Manual tools: Using calipers, micrometers, and bore gauges for basic measurements.
• Advanced equipment: Operating and programming sophisticated machinery like a CMM (Coordinate Measuring Machine) to measure complex geometries and tight tolerances.

• Surface finish analysis: Using profilometers to ensure the surface roughness of parts meets specifications.

• Continuous Improvement

The quality engineer is a champion of continuous improvement. They analyze quality data, identify trends, and lead initiatives to enhance product quality and process efficiency. This can involve:

• Data analysis: Using software to analyze quality metrics, such as scrap rates, first-pass yield, and customer complaints.
• Leading improvement projects: Heading projects focused on reducing defects, improving process capability, and optimizing production workflows.
• Training: Training machine operators and other staff on new quality procedures, standards, and the proper use of inspection equipment.

Company Description

TAK Automation, accredited with ISO 9001–2015, is based in Coimbatore, India and specializes in precision machined products made from ferrous and nonferrous metals, as well as aluminum. The company is led by highly qualified professionals with extensive experience in the fields of aluminum and steel foundry, CNC machining, casting, forging, welding, heat treatment, special processes, and R&D. TAK Automation is dedicated to delivering high-quality products and excelling in customer service.

Role Description

This is a full-time, on-site role for a Manufacturing Quality Engineer located in Coimbatore. The Manufacturing Quality Engineer will be responsible for ensuring quality control throughout the manufacturing process, conducting quality audits, and implementing quality management systems. The role includes tasks such as quality assurance, quality engineering, and maintaining compliance with industry standards.

Qualifications

• 5 years Min . Experience in Quality Control and Quality Assurance
• Skills in Quality Engineering and Quality Management
• Proficiency in Quality Auditing procedures
• Strong problem-solving and analytical skills
• Excellent written and verbal communication skills
• Ability to work independently and collaboratively
• Experience in the manufacturing industry is a plus
• Bachelor's degree in Engineering or related field

Key Roles and Responsibilities

1. Quality System Development and Maintenance

The quality engineer is responsible for developing, implementing, and maintaining the Quality Management System (QMS). This includes establishing and documenting procedures, work instructions, and standards that align with industry certifications like ISO 9001 or IATF 16949. They ensure the machine shop is in compliance with all relevant regulations and customer requirements.

2. Quality Planning and Process Control

They play a central role in the planning phase of production. This includes:

• Interpreting engineering drawings and GD&T (Geometric Dimensioning and Tolerancing): Translating design specifications into actionable quality control plans.
• Developing inspection plans: Creating detailed plans for what to inspect, when to inspect it, and which tools to use at each stage (e.g., raw material, in-process, and final inspection).
• Implementing Statistical Process Control (SPC): Using statistical methods and control charts to monitor key process variables (like cutting speed and feed rate) to ensure the process remains stable and consistent.
• Conducting First Article Inspection (FAI): Performing a thorough inspection of the first part produced in a new production run to ensure it meets all specifications before mass production begins.

3. Root Cause Analysis and Corrective Actions

When a defect or non-conformance occurs, the quality engineer leads the investigation. They:

• Conduct root cause analysis: Use problem-solving methodologies (like the 5 Whys or Fishbone diagrams) to identify the underlying cause of the issue.
• Implement Corrective and Preventive Actions (CAPA): Develop and implement solutions to fix the current problem and prevent it from recurring in the future.
• Manage non-conforming materials: Ensure that defective parts are properly quarantined, dispositioned, and accounted for to prevent them from reaching the customer.

4. Inspection and Metrology

A core responsibility involves the hands-on inspection of parts. This requires a deep understanding of metrology and proficiency with various measurement tools:

• Manual tools: Using calipers, micrometers, and bore gauges for basic measurements.
• Advanced equipment: Operating and programming sophisticated machinery like a CMM (Coordinate Measuring Machine) to measure complex geometries and tight tolerances.
• Surface finish analysis: Using profilometers to ensure the surface roughness of parts meets specifications.

5. Continuous Improvement

The quality engineer is a champion of continuous improvement. They analyze quality data, identify trends, and lead initiatives to enhance product quality and process efficiency. This can involve:

• Data analysis: Using software to analyze quality metrics, such as scrap rates, first-pass yield, and customer complaints.
• Leading improvement projects: Heading projects focused on reducing defects, improving process capability, and optimizing production workflows.
• Training: Training machine operators and other staff on new quality procedures, standards, and the proper use of inspection equipment.