ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

ISO/TS 17863:2013, titled “Geometrical product specification (GPS) – Tolerancing of moveable assemblies,” is a technical specification that addresses the tolerancing of components within moveable assemblies. It is designed to ensure that such assemblies function correctly and reliably by defining the geometric and dimensional tolerances required for proper fit and performance.

Overview of ISO/TS 17863:2013

1. Objective

The specification provides guidelines for the geometrical tolerancing of moveable assemblies to ensure that they operate within their intended functional requirements. This includes tolerances for fit, motion, and alignment of components that are part of an assembly where relative movement is required.

2. Scope

  • Application: ISO/TS 17863:2013 applies to the tolerancing of moveable assemblies in various industries, including automotive, aerospace, and machinery.
  • Components: It covers the tolerancing of components that must fit together and move relative to each other, such as gears, shafts, and linkages.

3. Key Concepts

  • Geometrical Tolerancing: Defines the permissible limits of variation in the geometry of components to ensure that they fit together and function properly.
  • Moveable Assemblies: Focuses on assemblies where parts must move relative to each other, requiring precise tolerancing to maintain functionality and performance.
  • Functional Requirements: Emphasizes the importance of defining tolerances based on the functional requirements of the assembly to ensure that it performs as intended.

Requirements and Guidelines

1. Tolerancing Techniques

  • Dimensional Tolerances: Specifies allowable variations in size and shape of components.
  • Geometric Tolerances: Defines permissible deviations in the geometric relationships between components, such as parallelism, perpendicularity, and angularity.

2. Functional Considerations

  • Fit and Clearance: Ensures that components within the assembly have the correct fit and clearance for smooth operation.
  • Motion and Alignment: Addresses tolerances related to the movement of components to avoid interference and ensure proper alignment.

3. Documentation

  • Technical Drawings: Requires the use of detailed technical drawings to specify tolerances and ensure clarity in the manufacturing and inspection processes.
  • Tolerancing Standards: Encourages adherence to established tolerancing standards to maintain consistency and quality across different assemblies and industries.

Implementation

1. Design Phase

  • Tolerancing Specifications: Integrate tolerancing specifications into the design process to ensure that they meet the functional requirements of the moveable assembly.
  • Collaboration: Work with manufacturers and suppliers to ensure that tolerancing requirements are clearly understood and achievable.

2. Manufacturing

  • Quality Control: Implement quality control measures to ensure that components are produced within the specified tolerances.
  • Inspection: Use appropriate inspection techniques to verify that the tolerances are met and that the moveable assembly functions correctly.

3. Assembly and Testing

  • Assembly Procedures: Follow prescribed assembly procedures to ensure that components fit together correctly and that the assembly functions as intended.
  • Testing: Conduct testing to verify that the moveable assembly operates within the specified tolerances and meets performance requirements.

Benefits

  • Improved Functionality: Ensures that moveable assemblies perform as designed, reducing the risk of malfunction and increasing reliability.
  • Consistency: Promotes consistency in the production and assembly of moveable assemblies across different manufacturers and industries.
  • Reduced Costs: Minimizes the risk of rework and rejects due to improper tolerancing, leading to cost savings in manufacturing and assembly.

Conclusion

ISO/TS 17863:2013 provides a framework for the effective tolerancing of moveable assemblies, ensuring that components fit together and function properly. By adhering to the guidelines set forth in this specification, manufacturers can achieve high levels of quality and performance in moveable assemblies, contributing to overall product reliability and efficiency.


Contact Information

For more details on ISO/TS 17863:2013 or for assistance with implementation, please contact:

  • ISO Standards Organization: [Contact Details]
  • Tolerancing Experts: [Contact Details]
  • Industry Consultants: [Contact Details]

What is required ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

ISO/TS 17863:2013, titled “Geometrical product specification (GPS) – Tolerancing of moveable assemblies,” specifies the requirements for geometrical tolerancing of components within moveable assemblies to ensure proper functionality and performance. The standard provides guidelines on how to apply tolerances to achieve the desired fit, motion, and alignment of parts within these assemblies.

Requirements of ISO/TS 17863:2013

  1. Geometric Tolerancing
    • Dimensional Tolerances: Define the allowable variations in the size and shape of components. This includes tolerances for length, width, height, and other critical dimensions.
    • Geometric Tolerances: Specify permissible deviations in the geometric relationships between components, such as:
      • Parallelism: Ensures surfaces or axes are parallel to each other.
      • Perpendicularity: Ensures surfaces or axes are at a right angle to each other.
      • Flatness: Ensures surfaces are within a specified flatness tolerance.
      • Circularity: Ensures that circular features are within specified tolerances for roundness.
  2. Fit and Clearance
    • Assembly Fit: Specifies the tolerances required to ensure that components fit together correctly without excessive play or interference.
    • Clearance Tolerances: Defines the acceptable gaps between components that need to move relative to each other.
  3. Motion and Alignment
    • Movement Tolerances: Addresses tolerances related to the relative movement of components to ensure smooth operation without interference.
    • Alignment: Ensures that components within the assembly are properly aligned to function as intended.
  4. Functional Requirements
    • Performance-Based Tolerances: Tolerances are specified based on the functional requirements of the assembly, ensuring that the assembly performs its intended function without failure.
  5. Documentation
    • Technical Drawings: Detailed drawings must be provided to specify the tolerances, including geometric and dimensional requirements. These drawings should clearly communicate the tolerancing requirements to manufacturers and inspectors.
    • Tolerancing Standards: Adhere to established tolerancing standards to ensure consistency and compatibility with other systems and components.
  6. Manufacturing and Quality Control
    • Manufacturing Processes: Incorporate the specified tolerances into manufacturing processes to ensure that components are produced within the required specifications.
    • Inspection and Verification: Implement inspection procedures to verify that components and assemblies meet the specified tolerances. This includes measuring and testing to ensure that the tolerances are adhered to.
  7. Collaboration
    • Design and Manufacturing: Ensure that designers and manufacturers collaborate closely to understand and meet the tolerancing requirements.
    • Supplier Coordination: Work with suppliers to ensure that they can produce components that meet the specified tolerances.

Implementation Steps

  1. Design Integration
    • Incorporate the ISO/TS 17863:2013 tolerancing requirements into the design phase of the moveable assembly to ensure that the final product meets the required specifications.
  2. Manufacturing
    • Update manufacturing processes and equipment to accommodate the tolerances specified in the standard.
    • Ensure that manufacturing staff are trained to understand and apply the tolerances correctly.
  3. Quality Assurance
    • Develop quality assurance procedures to monitor and verify that the tolerances are consistently met during production.
    • Conduct regular audits and inspections to maintain adherence to ISO/TS 17863:2013.
  4. Documentation and Communication
    • Provide comprehensive documentation, including technical drawings and specifications, to clearly communicate the tolerances to all stakeholders.
    • Ensure effective communication between design, manufacturing, and quality control teams to address any issues related to tolerancing.

By adhering to the requirements of ISO/TS 17863:2013, organizations can ensure that moveable assemblies are manufactured and assembled to precise tolerances, leading to improved functionality, performance, and reliability of the final product.

Who is required ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

ISO/TS 17863:2013 is relevant to various stakeholders involved in the design, manufacturing, and quality control of moveable assemblies. Here’s a breakdown of who is required or affected by this standard:

1. Design Engineers

  • Responsibilities: Design engineers need to apply the tolerancing requirements specified in ISO/TS 17863:2013 during the design phase of moveable assemblies. They must ensure that geometric and dimensional tolerances are correctly specified to ensure proper fit, function, and performance of the assembly.
  • Importance: Accurate tolerancing helps in creating designs that can be manufactured within the desired specifications and function correctly.

2. Manufacturers

  • Responsibilities: Manufacturers must adhere to the tolerancing requirements when producing components for moveable assemblies. This includes ensuring that components meet the specified geometric and dimensional tolerances and are produced using appropriate processes and equipment.
  • Importance: Compliance with the standard ensures that components fit together properly and that the assembly functions as intended, reducing the risk of assembly issues and failures.

3. Quality Control and Inspection Teams

  • Responsibilities: Quality control and inspection teams are tasked with verifying that components and assemblies meet the specified tolerances. This involves measuring and testing components to ensure they conform to the design specifications outlined in ISO/TS 17863:2013.
  • Importance: Effective quality control ensures that any deviations from the specified tolerances are identified and addressed before the assembly is used, maintaining product quality and reliability.

4. Suppliers

  • Responsibilities: Suppliers of components for moveable assemblies must be aware of the tolerancing requirements and ensure that their products meet the necessary specifications. They must provide components that are manufactured within the defined tolerances.
  • Importance: Consistent compliance with tolerancing requirements from suppliers helps in achieving the desired fit and function of the moveable assemblies.

5. Project Managers

  • Responsibilities: Project managers oversee the integration of tolerancing requirements into the overall project workflow. They ensure that the design, manufacturing, and quality control processes align with the tolerancing standards and that all stakeholders are informed and coordinated.
  • Importance: Proper management ensures that tolerancing requirements are effectively implemented and that any issues are addressed promptly.

6. Product Development Teams

  • Responsibilities: Teams involved in product development must consider the tolerancing requirements throughout the development process. This includes validating that the tolerances meet the functional requirements and that the final product performs as intended.
  • Importance: Incorporating tolerancing requirements into the development process helps in creating products that are reliable and meet customer expectations.

7. Regulatory and Certification Bodies

  • Responsibilities: Regulatory and certification bodies may require compliance with ISO/TS 17863:2013 as part of the certification process for products and systems. They may conduct audits and assessments to ensure that tolerancing requirements are met.
  • Importance: Compliance with the standard helps in achieving certifications and meeting regulatory requirements, ensuring that the product is safe and meets industry standards.

In summary, ISO/TS 17863:2013 impacts a wide range of stakeholders involved in the lifecycle of moveable assemblies, from design through manufacturing to quality control and certification. Each of these parties plays a crucial role in ensuring that the tolerancing requirements are effectively applied and that the final product meets the desired performance and quality standards.

When is required ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

ISO/TS 17863:2013, which deals with the tolerancing of moveable assemblies, is required in various stages of the product lifecycle, including:

1. Design Phase

  • When: During the design phase, particularly when designing assemblies that involve relative movement between components.
  • Purpose: To ensure that the design incorporates appropriate tolerances that will allow the assembly to function correctly and meet performance requirements. Proper tolerancing at this stage helps in avoiding potential issues related to fit and function.

2. Manufacturing Phase

  • When: During the manufacturing of components that will be part of moveable assemblies.
  • Purpose: To guide the manufacturing processes in producing components within specified tolerances. This is crucial to ensure that the components fit together properly and that the assembly operates as intended.

3. Quality Control and Inspection

  • When: Throughout the quality control and inspection process, both during and after production.
  • Purpose: To verify that the manufactured components and the final assembly meet the specified tolerances. This helps in identifying any deviations and ensuring that the assembly will function correctly in real-world applications.

4. Assembly

  • When: During the assembly of the moveable components into the final product.
  • Purpose: To ensure that the tolerances are adhered to and that the components fit together as designed. Proper tolerancing is essential for the smooth operation of moveable parts and the overall functionality of the assembly.

5. Product Development and Testing

  • When: During the development and testing phases, before the product is finalized and released.
  • Purpose: To validate that the tolerancing applied meets the functional requirements of the product. This includes testing the assembly to ensure it performs as expected under operational conditions.

6. Regulatory Compliance

  • When: When meeting industry standards and regulatory requirements.
  • Purpose: To comply with relevant standards and regulations that may mandate adherence to ISO/TS 17863:2013 for certain types of moveable assemblies. This ensures that the product meets safety and quality standards.

7. Continuous Improvement

  • When: During ongoing product development and process improvement efforts.
  • Purpose: To refine and improve tolerancing practices based on feedback and performance data. Continuous adherence to and improvement of tolerancing standards help in maintaining high product quality and performance.

In summary, ISO/TS 17863:2013 is required throughout the entire lifecycle of moveable assemblies, from initial design through manufacturing and quality control to final assembly and testing. Adhering to the standard at each stage ensures that the components and assemblies function as intended and meet the necessary performance and quality criteria.

Where is required ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

ISO/TS 17863:2013 is required in various locations and contexts related to the design, manufacturing, and quality control of moveable assemblies. Here’s a breakdown of where the standard is applicable:

1. Design and Engineering Offices

  • Location: In design and engineering departments where products with moveable assemblies are conceived and developed.
  • Purpose: To integrate appropriate tolerancing requirements into product designs to ensure proper fit, function, and performance.

2. Manufacturing Facilities

  • Location: In factories or production facilities where components of moveable assemblies are manufactured.
  • Purpose: To apply tolerancing guidelines during the production process to ensure components meet the required specifications and function as intended when assembled.

3. Quality Control Laboratories

  • Location: In quality control and inspection laboratories where components and assemblies are tested and verified.
  • Purpose: To conduct inspections and measurements based on the tolerancing requirements to ensure compliance and proper function of the moveable assemblies.

4. Assembly Plants

  • Location: In assembly plants where components are assembled into final products.
  • Purpose: To ensure that components fit together correctly and that the moveable assemblies operate smoothly according to the specified tolerances.

5. Product Development and Testing Facilities

  • Location: In research and development (R&D) centers or testing facilities where prototypes and final products are tested.
  • Purpose: To validate that the tolerances are sufficient for the product’s intended function and performance, and to identify any issues that may need addressing before production.

6. Supplier and Vendor Sites

  • Location: At supplier and vendor locations where components for moveable assemblies are produced or sourced.
  • Purpose: To ensure that suppliers adhere to the required tolerances when providing components, thereby maintaining the quality and functionality of the final product.

7. Regulatory and Certification Bodies

  • Location: At organizations that provide certification and regulatory compliance assessments for products.
  • Purpose: To verify that products meet industry standards and regulatory requirements, which may include adherence to ISO/TS 17863:2013.

8. Industry Standards and Guidelines

  • Location: Within industry standards organizations and technical committees that develop and review standards related to geometrical product specification and tolerancing.
  • Purpose: To influence and align with broader standards and practices in the field of geometrical product specification and tolerancing.

9. Technical Training Centers

  • Location: In training centers or educational institutions where professionals are educated on tolerancing and quality control practices.
  • Purpose: To provide training on the application of ISO/TS 17863:2013 and its importance in maintaining quality and performance in moveable assemblies.

In summary, ISO/TS 17863:2013 is required across various locations and stages in the lifecycle of moveable assemblies, including design, manufacturing, quality control, assembly, and testing. Adherence to the standard at these locations ensures that the tolerancing requirements are effectively applied, leading to reliable and functional moveable assemblies.

How is required ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

ISO/TS 17863:2013 outlines specific requirements and methods for the tolerancing of moveable assemblies. Here’s how the standard is required to be applied:

1. Design Implementation

  • Tolerance Specification: Design engineers must specify tolerances for both geometric and dimensional features of the moveable assemblies. This includes defining allowable deviations for parts that will be assembled and move relative to each other.
  • Functional Requirements: Ensure that tolerances are set based on the functional requirements of the assembly. This means understanding how the movement of each part affects the overall function and specifying tolerances that support proper operation.
  • Technical Drawings: Provide detailed technical drawings that clearly indicate the tolerances for each component and assembly. Drawings should use standard symbols and notations to communicate the tolerances effectively.

2. Manufacturing Processes

  • Tolerance Adherence: Manufacturers must adhere to the specified tolerances during the production of components. This involves using precision machinery and quality control measures to ensure that parts meet the design specifications.
  • Process Controls: Implement process controls to maintain consistency and accuracy in the manufacturing process. This includes regular calibration of equipment and monitoring of production processes.
  • Documentation: Maintain documentation of the tolerancing requirements and how they are applied during manufacturing. This includes recording measurements and any deviations that occur during production.

3. Quality Control and Inspection

  • Inspection Procedures: Develop and follow inspection procedures to verify that manufactured components meet the specified tolerances. This involves using precise measurement tools and techniques to check dimensions and geometric relationships.
  • Compliance Verification: Ensure that all components and assemblies are tested against the tolerances specified in ISO/TS 17863:2013. Any deviations should be identified, documented, and addressed.
  • Reporting: Provide detailed reports on inspections and any issues identified. This includes documenting the results of measurements, any corrective actions taken, and the overall compliance with tolerances.

4. Assembly

  • Fit and Function: During assembly, ensure that components fit together as intended and that the moveable parts operate smoothly within the specified tolerances. This involves checking for proper alignment, clearance, and movement.
  • Adjustment and Calibration: Make any necessary adjustments or calibrations to ensure that the assembled product meets the functional requirements and performs as expected.

5. Product Development and Testing

  • Validation: Validate that the applied tolerances achieve the desired performance and functionality of the moveable assembly. This includes testing the assembly under various conditions to ensure it operates correctly.
  • Prototyping: Use prototypes to test and refine tolerancing requirements before final production. This helps in identifying any potential issues and making adjustments as needed.

6. Continuous Improvement

  • Feedback Integration: Use feedback from manufacturing, quality control, and field performance to improve tolerancing practices. This includes analyzing any issues related to tolerances and making necessary adjustments to design or processes.
  • Process Updates: Regularly update manufacturing and quality control processes based on lessons learned and advancements in technology to ensure continued compliance with ISO/TS 17863:2013.

7. Training and Awareness

  • Staff Training: Provide training for design engineers, manufacturers, and quality control personnel on the requirements of ISO/TS 17863:2013 and how to apply them effectively.
  • Ongoing Education: Stay informed about updates to the standard and best practices in tolerancing to maintain high standards of quality and performance.

By following these requirements, organizations can ensure that their moveable assemblies are designed, manufactured, and tested to meet the specified tolerances, leading to reliable and high-performing products.

Case Study on ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies

Case Study: Implementation of ISO/TS 17863:2013 in a Precision Automotive Component Manufacturer

Background

A precision automotive component manufacturer specializes in producing high-performance components for vehicle engines. One of their flagship products is a complex moveable assembly used in advanced engine management systems. Ensuring the precise tolerancing of these assemblies is crucial for optimal performance and reliability.

Challenge

The manufacturer faced issues with the fit and function of their moveable assemblies, leading to increased warranty claims and production delays. The components did not always meet the required geometric and dimensional tolerances, affecting the overall performance of the engine management system. The company decided to implement ISO/TS 17863:2013 to address these challenges and improve the quality of their assemblies.

Implementation

**1. Design Phase

  • Tolerance Specification: The design team reviewed the ISO/TS 17863:2013 standard to understand the specific tolerancing requirements for moveable assemblies. They updated their design specifications to include precise tolerances for both geometric and dimensional features.
  • Technical Drawings: New technical drawings were created with detailed tolerancing information, clearly indicating allowable deviations for each component.

**2. Manufacturing Phase

  • Process Controls: Manufacturing processes were reviewed and adjusted to ensure they could produce components within the specified tolerances. This involved upgrading machinery and implementing more stringent quality control measures.
  • Documentation: The production team maintained detailed records of tolerances and measurements, ensuring that all components were produced according to the updated specifications.

**3. Quality Control and Inspection

  • Inspection Procedures: New inspection procedures were developed based on ISO/TS 17863:2013 requirements. High-precision measurement tools were used to verify that components met the specified tolerances.
  • Compliance Verification: Components were regularly tested to ensure compliance with the new tolerancing standards. Any deviations were identified and addressed promptly.

**4. Assembly Phase

  • Fit and Function Testing: During the assembly process, components were checked to ensure they fit together correctly and that the moveable parts operated smoothly within the specified tolerances.
  • Adjustment and Calibration: Necessary adjustments and calibrations were made to ensure that the assembled products met the functional requirements.

**5. Product Development and Testing

  • Validation: Prototypes of the updated moveable assemblies were tested under various conditions to validate that the tolerances achieved the desired performance and functionality.
  • Prototyping: The company used prototypes to refine tolerancing requirements and address any issues before full-scale production.

**6. Continuous Improvement

  • Feedback Integration: Feedback from manufacturing and field performance was used to continuously improve tolerancing practices. The company analyzed any issues related to tolerances and made necessary adjustments to design and processes.
  • Process Updates: The company regularly updated manufacturing and quality control processes based on lessons learned and advancements in technology.

**7. Training and Awareness

  • Staff Training: Design engineers, manufacturers, and quality control personnel received training on ISO/TS 17863:2013 and its application to ensure effective implementation.
  • Ongoing Education: The company stayed informed about updates to the standard and best practices in tolerancing to maintain high standards of quality and performance.

Results

  • Improved Quality: The implementation of ISO/TS 17863:2013 led to a significant reduction in warranty claims and production delays. Components and assemblies consistently met the specified tolerances, resulting in improved performance and reliability.
  • Enhanced Efficiency: The manufacturing and quality control processes became more efficient, reducing the need for rework and adjustments.
  • Customer Satisfaction: The company received positive feedback from customers regarding the improved performance of their engine management systems, leading to increased customer satisfaction and repeat business.

Conclusion

The case study demonstrates the successful application of ISO/TS 17863:2013 in addressing challenges related to the tolerancing of moveable assemblies. By implementing the standard, the manufacturer was able to enhance the quality and performance of their products, streamline their processes, and improve customer satisfaction.

White Paper on ISO/TS 17863:2013 Geometrical product specification (GPS) – Tolerancing of moveable assemblies


Executive Summary

ISO/TS 17863:2013 provides essential guidelines for the tolerancing of moveable assemblies in geometrical product specification (GPS). This white paper explores the importance of adhering to this standard, the benefits it offers, and practical steps for successful implementation. It is intended for design engineers, manufacturers, quality control professionals, and stakeholders involved in the production of moveable assemblies.


Introduction

ISO/TS 17863:2013 outlines a standardized approach for specifying tolerances in moveable assemblies. Accurate tolerancing is crucial for ensuring that components fit together correctly and function as intended. This white paper discusses the key aspects of the standard, its application, and how it contributes to enhanced product quality and reliability.


1. Overview of ISO/TS 17863:2013

ISO/TS 17863:2013 provides a framework for specifying tolerances in assemblies where parts move relative to each other. The standard covers:

  • Geometric Tolerances: Specifications for the permissible variations in shape, orientation, and location of components.
  • Dimensional Tolerances: Permissible deviations in the dimensions of components.
  • Functional Requirements: Ensuring that tolerances support the intended function of the moveable assembly.

2. Importance of Tolerancing in Moveable Assemblies

a. Functional Performance

  • Fit and Function: Proper tolerancing ensures that components fit together and function smoothly, which is critical for performance.
  • Reliability: Consistent tolerances contribute to the reliability and longevity of the assembly.

b. Manufacturing Efficiency

  • Reduced Rework: Accurate tolerancing reduces the need for adjustments and rework, leading to cost savings and increased efficiency.
  • Process Control: Clear tolerancing guidelines improve process control and consistency.

c. Quality Assurance

  • Compliance: Adherence to tolerancing standards ensures that components meet quality and regulatory requirements.
  • Customer Satisfaction: High-quality assemblies lead to improved customer satisfaction and fewer warranty claims.

3. Implementing ISO/TS 17863:2013

a. Design Phase

  • Tolerance Specification: Incorporate precise tolerances into design specifications to ensure compatibility and functionality.
  • Technical Drawings: Update technical drawings to include detailed tolerancing information.

b. Manufacturing Phase

  • Process Controls: Implement controls to maintain consistency in production and ensure tolerances are met.
  • Documentation: Maintain detailed records of tolerancing requirements and measurements.

c. Quality Control

  • Inspection Procedures: Develop and follow inspection procedures to verify that components and assemblies meet the specified tolerances.
  • Compliance Verification: Regularly test and inspect components to ensure adherence to tolerances.

d. Assembly

  • Fit and Function Testing: Verify that components fit and function correctly when assembled.
  • Adjustment and Calibration: Make necessary adjustments to ensure the assembly meets functional requirements.

e. Continuous Improvement

  • Feedback Integration: Use feedback from production and performance data to refine tolerancing practices.
  • Process Updates: Regularly update processes based on advancements in technology and best practices.

f. Training and Awareness

  • Staff Training: Provide training on ISO/TS 17863:2013 and its application to ensure effective implementation.
  • Ongoing Education: Stay informed about updates and best practices in tolerancing.

4. Case Studies

Case Study 1: Automotive Component Manufacturer

  • Challenge: Issues with fit and function in moveable assemblies.
  • Solution: Implementation of ISO/TS 17863:2013 improved quality and performance, leading to reduced warranty claims and increased customer satisfaction.

Case Study 2: Aerospace Industry Supplier

  • Challenge: Variability in component dimensions affecting assembly performance.
  • Solution: Adoption of the standard enhanced manufacturing consistency and assembly reliability.

5. Conclusion

ISO/TS 17863:2013 plays a crucial role in ensuring the quality and performance of moveable assemblies. By adhering to the standard, organizations can improve product reliability, manufacturing efficiency, and customer satisfaction. Implementing the standard involves careful planning, precise design, rigorous manufacturing controls, and ongoing evaluation to achieve optimal results.


6. Recommendations

  • Adopt ISO/TS 17863:2013: Implement the standard across all stages of product development, manufacturing, and quality control.
  • Invest in Training: Provide comprehensive training for all relevant staff to ensure effective application of the standard.
  • Monitor and Improve: Continuously monitor tolerancing practices and make improvements based on feedback and advancements.

For further information or guidance on implementing ISO/TS 17863:2013, please contact [Your Organization’s Contact Information].

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