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THE NEW IATF 16949:2016 STANDARD

IN THE AUTOMOTIVE SUPPLY CHAIN

Józef Gruszka* and Agnieszka Misztal**

Poznan University of Technology, Faculty of Management Engineering, Chair of

Ergonomics and Quality Management, Strzelecka 11, 60-965 Poznań, Poland

* Email: jozef.gruszka@put.poznan.pl

** Email: agnieszka.misztal@put.poznan.pl

Abstract: The automotive industry is one of the most important sectors of the global economy. It has

long been setting new standards not only in quality management (QS 9000/VDA or ISO/TS 16949).

It is also an inspiration for seeking efficient production methods, such as lean production, agile

production and tools that support such production in the global automotive supply chain. Since

October 2016, a new quality management standard in the form of the IATF 16949:2016 system has

been in place in the automotive industry. The standard amends the existing ISO/TS 16949:2009 based

on the revised ISO 9001:2015 and customer-specific requirements (CSR).

Paper type: Research Paper

Published online: 30 August 2017

Vol. 7, No. 4, pp. 211 – 218

DOI: 10.21008/j.2083-4950 .2017.7.4.3

ISSN 2083-4942 (Print)

ISSN 2083-4950 (Online)

© 2017 Poznan University of Technology. All rights reserved.

Keywords: quality management system, ISO 9001:2015, IATF 16949:2016

212 J. Gruszka and A. Misztal

1. INTRODUCTION

Today's automotive companies seek perfection in an increasingly globalized

and internationalized world economy in which businesses search for new markets,

cheap labor and new locations in less developed countries in which they rely on

well-tested technologies. A case in point are the manufacturing enterprises of

automotive industry suppliers and subsuppliers (OEM-Tier 1, Tier 2, Tier 3, Tier 4,

etc.), who account for 80% of the parts needed for new-automobile assembly. This

statistic suggests that the market is dominated by suppliers facing pressures to

adapt to the global environment, cater to the specific needs of individual automo-

bile companies and their customers and create environments supportive of continu-

ous change. Most of the changes result from technological advances and innova-

tions, shorter product life cycles, reduced production costs and shorter lead times.

Also of significance for suppliers is the industry-wide trend of streamlining relying

on such systems as lean production and agile production and tools that support lean

management and agile management. The manufacturing environment, which

changes rapidly in the globalized market, is affected by highly variable and co m-

plex economic processes. Ever stiffer competition in the industry not only on d e-

sign and technologies but also lead times and product life cycles, as well as the

demands and opportunities of the circular economy (product manufacturing, use

and disposal as waste "from cradle to grave") urge automakers and their suppliers

to put an immense effort into searches for more efficient methods and management

support systems. To that end, they make use of information and IT-mediated ERP

systems and the new automotive quality management system standard IATF

16949:2016 (Misztal, 2016).

The goal of this article is to discuss some of the key changes introduced by

the new IATF 16949:2016 standard affecting suppliers and sub-suppliers and pre-

sent the author's draft plan of modifications and certification to the new standard to

fit into the short transition window of 23 months between the publication of the

new standard on October 1, 2016 and the expiry of ISO/TS certificates on Septem-

ber 14, 2018.

2. PRIOR ISO TECHNICAL SPECIFICATION 16949:2009

The first edition of ISO/TS 16949 was prepared in 1999 by the International

Automotive Task Force (IATF) and ISO under the name Quality management sys-

tems for automotive suppliers – particular requirements for the application of ISO

9001:9004 with a view to achieving world-wide integration of country-specific

assessment and certification systems, i.e. the North American QS 9000, the Italian

AVSQ, the French EAQV and the German VDA, with the ISO 9001:9004 stan d-

ard. Its successive editions (2002, 2009) were essential to keep up with advances in

The new IATF 16949:2016 standard in the automotive supply chain 213

the automotive industry and with amendments to the 2000 and 2008 editions of the

ISO 9001 standard. The aim of the existing ISO/TS 16949 was to put in place

a global quality management system throughout vehicle, component and part

lifecycles to provide for continual improvement emphasizing defect prevention and

the reduction of variation and waste in the supply chain (OEM-Tier 1, 2, 3, 4, etc.).

The ISO technical specification emphasizes design, planning and production, all of

which are subject to the most stringent regulations and require an interdisciplinary

approach at every stage. The technical specification calls for a broad approach to

analyzing error types and their effects in design, production and logistics failure

mode and effects analysis (D/P/L FMEA). It is crucial to document and implement

total productive maintenance (TPM) and production instrumentation management

systems. The overall production documentation (technological manuals, inspection

and test plans) must be based on process flow layouts, supported with analyses of

production capacity (Cm, Cp, Cpk) and measuring system capacity (Cg, Cgk) relat-

ing to D/P/L FMEA. ISO/TS 16949 calls for a process-based approach, top man-

agement commitment to quality through quality measures, contingency planning,

involvement in layered process audits and the selection of a customer representa-

tive by top management. Invariably, the standard additionally refers to customer-

specific requirements (CSRs) of individual auto manufacturers referred to in APQP

(Advanced Product Quality Planning), PPAP (Production Part Approval Process),

FMEA (Failure Mode and Effect Analysis), MSA (Measurement Systems Analy-

sis), SPC (Statistical Process Control), Formel Q Konkret manuals and GM/GP

procedures (ISO/TS 16949:2007).

As it amended ISO 9001:2015 (Gołaś, Mazur, Misztal & Gruszka,2016) a IATF

commenced updating work, which has led to the publication of the IATF

16949:2016 version titled: Quality management system requirements for automo-

tive production and relevant service part organizations (IATF, 2016).

3. KEY CHANGES INTRODUCED BY THE NEW IATF 16949:2016

STANDARD RELATING TO SUPPLIERS

IATF 16949:2016 specifies quality management system requirements for the

design, development and production and, where applicable, assembly, fitting and

servicing, of automotive products, including products with embedded software.

IATF 16949:2016 shares the same section headings and clause structure as ISO

9001 and, after its 2015 update, follows the same high level structure (Supplement

SL) with 10 clauses dedicated to ensure alignment with standards governing other

management systems (such as ISO14001 and the ISO27000 series). As opposed to

ISO/TS 16949 and other industry standards, IATF 16949:2016 does not contain the

ISO 9001:2015 text, which may make it harder to read and understand its require-

ments (ISO/TS 16949 did cite the text of ISO 9001). To a certain extent, the

214 J. Gruszka and A. Misztal

changes adopted in IATF 16949:2016 reflect those introduced in ISO 9001:2015.

Others are either variations on ISO/TS 16949:2009 or all-new issues. The key

changes provided in the IATF standard can be summarized as follows:

• Chapter 4 Context of the Organization

Context of the Organization is a new concept describing the need to ensure that

quality management systems reflect the circumstances that affect the functioning of

organizations. It is a "combination of external and internal factors, which may

either positively or negatively affect the organization's approach to defining and

achieving its goals". Understanding the context of the organization is vital for la y-

ing the groundwork for defining key system elements such as the scope of the qual-

ity management system, processes, policies, quality objectives and risk and oppo r-

tunity identification. The key change enshrined in IATF 16949 is to ensure that

products and processes (together with service parts from third-party suppliers) live

up to customer, statutory and regulatory requirements (Sections 4.4.1.1 and 8.4.2.2)

as well as product-safety-related characteristics in the form of special approvals

cascaded throughout the supply chain (Section 4.4.1.2 Product safety).

• Chapter 5 Leadership

Both ISO 9001 and IATF 16949 emphasize leadership in addition to manage-

ment. This means that the organization should formulate and implement a corpo-

rate responsibility policy covering at least anti-bribery policy, an employee code of

conduct and an ethics escalation (whistle-blowing) policy (IATF Section 5.1.1.1

Corporate responsibility).

• Chapter 6 Planning

According to Section 6.1.2.1 of IATF 16949, risk analysis should be extended

to product recalls, product audits, field returns and repairs, complaints, scrap and

rework. Section 6.1.2.3 IATF obliges organizations to prepare contingency plans,

which should include data associated with the identification and evaluation of i n-

ternal and external risks for all production processes and infrastructure develop-

ment to maintain production outputs and ensure the satisfaction of customer re-

quirements.

• Chapter 7 Support

IATF 16949 places more emphasis on the multidisciplinary approach covering

the risk identification and risk mitigation methods employed in preparing and im-

proving plant, facility and equipment plans (Section 7.1.3.1), keeping process envi-

ronment in a state of order, maintaining cleanliness and making repairs in keeping

with product and production process needs (Section 7.1.4.1). The organization's

internal laboratory as well as any external laboratories it uses should have a speci-

fied scope of expertise and, specifically, demonstrate the ability to perform the

required checks, tests and calibrations (Section 7.1.5.3).

• Chapter 8 Operation

Product and service design and development should apply to all stakeholders in

the supply chain (a multidisciplinary approach with qualified personnel applicable

to the use of APQP, FMEA, DFM and DFA, DFSS, DFMA and FTA tools and

The new IATF 16949:2016 standard in the automotive supply chain 215

techniques, Section 8.3.2.1). New and extended requirements apply to product

specifications; borderline and interface requirements; the consideration of altern a-

tive design methods; risk assessment, the organization's ability to mitigate/manage

risks as well as software design and development and self-assessment capabilities.

With respect to shrivelling externally provided products, processes and services,

IATF 16949 introduces supplier selection criteria and type and extent of control

and assessment of product, material and service risk to verify their conformity

with, among others, statutory and regulatory requirements in the country of receipt,

shipment and the customer-specified country of delivery (Sections 8.4.2.1 and

8.4.2.2). The requirement criteria extend to supplier quality management system

development (Section 8.4.2.3) and automotive product-related software and auto-

motive products with embedded software (Section 8.4.2.3.1).

• Chapter 9 Performance evaluation

IATF 16949 requirements strengthened the need to drive a risk-based approach

to the development and deployment of an organization-wide internal audit program

covering systems, processes and products." The audit program should have speci-

fied risk priorities for internal and external performance trends and process critical-

ity (Section 9.2.2.1-3)".

• Chapter 10 Improvement

IATF 16949 offers a more specific coverage of requirements for problem solv-

ing (Section 10.2.3), customer complaint handling and field failure test analysis,

including "an analysis of the links of the integrated organization product software

within the framework of the customer's end product system (Section 10.2.6)".

IATF adopts new requirements for "warranty management system (Section

10.5.2)" – "any organization required to provide a warranty for its products should

prepare and deploy a warranty management process" (IATF, 2016; ISO 2015,

ISO/TS 2009; Owczarzak 2016; Reiche & Bastick 2016).

4. TRANSITION FROM ISO/TS 16949:2009 TO IATF 16949:2016

In keeping with the IATF-published strategy of transition from ISO/TS

16949:2009 to IATF 16949:2016, which accounts for the possibility that certain

organizations may already be certified to the old editions of VDA 6.1 and ISO

9001:2008, IATF defined detailed transition rules and the related requirements

for both certification bodies and organizations seeking an IATF 16949:2016 ce r-

tificate (Fig. 1). For organizations seeking new IATF certification, the transition

will take 23 months from the publication of the new standard to the expiry of

ISO/TS certificates on September 14, 2018. Post October 1, 2017, no audits (initial,

surveillance, recertification or transfer) may be conducted to ISO/TS 16949:2009.

216 J. Gruszka and A. Misztal

Fig. 1. Timing of transition from ISO/TS:16949 to IATF:16949 (Tuv-Sud, 2016)

Organizations certified to ISO/TS 16949:2009 should transition to the new

IATF 16949 through a transition audit in line with the current audit cycle for

ISO/TS 16949:2009 (i.e. at a regularly scheduled recertification or surveillance

audit). Assuming that all prerequisites are satisfied (proof of an organization's

compliance with IATF 16949 requirements, auditor qualifications, etc.), organiza-

tions may begin their transition in October 2016.

Fig. 2. Draft schedule of transition from ISO/TS:16949:2009 to IATF:16949:2016 comp-

liance

Based on their own experience of cooperation with the automotive industry, the

authors propose the following draft plan of transition (shown in Table 1). The draft

The new IATF 16949:2016 standard in the automotive supply chain 217

plan covers such matters as: purchases of new editions of ISO standards, IATF

16949 and an online purchase of the standard of transition to IATF:2016 (IATF

2016). Next one should familiarize oneself with ISO 9000 and ISO 9001, IATF

16949 and the strategy of transition to the IATF standard (IATF 2016, ISO 2015).

This can be achieved by way of internal training offered to selected employees.

The change schedule can be agreed with the certification body. An essential part of

the transition should be to appoint the organization's internal team tasked with

analyzing gaps in the existing system against the new requirements and formulat-

ing a transition plan in consultation with the certification body.

An essential part of the transition should be to appoint the organization's inte r-

nal team tasked with analyzing gaps in the existing system against the new re-

quirements and formulating a transition plan in consultation with the certification

body. The team should not only identify gaps but also coordinate the preparation

and supplementation of system documentation by accounting for changes. Another

essential step should be to hold internal training for the organization's functions in

which system documentation was changed, the aim being to deploy the changes

and carry out internal audits. If the audit and management review results are posi-

tive, the organization may agree the date and scope of transition audit and system

certification to IATF16949:2016 with the certification body.

5. CONCLUSION

Regardless of the changes resulting from amendments to ISO 9001:2015, the

new edition of IATF 16949:2016 should be implemented no later than 2018 to the

extent of leadership and the context of the organization, the emphasis on risk man-

agement, and the focus on change aims, measurement and management, communi-

cation and awareness. IATF 16949:2016 contains detailed supplementation for the

automotive industry, including significant changes regarding:

1. The adoption of the top level management structure, which is binding under

ISO 9001:2015.

2. The understanding and definition of the context of the organization and the

related internal and external problems relative to such context, resulting from

risk and opportunity identification.

3. Top management engagement in corporate responsibility policy, including at

least an anti-bribery policy, an employee code of conduct and an ethics escala-

tion policy.

4. Increased emphasis on safety-related products and processes.

5. More stringent requirements concerning product traceability to comply with the

latest regulatory changes and requirements for products with embedded software.

6. Added requirements related to corporate responsibility.

7. Taking account of the warranty management process.

218 J. Gruszka and A. Misztal

8. Increased requirements for internal and external auditors.

9. More specific requirements concerning supplier/sub-supplier management and

development.

REFERENCES

Gołaś H., Mazur A. & Misztal A. (2016). Model doskonalenia przedsiębiorstwa przez

zarządzanie ryzykiem zgodnie z ISO 9001:2015. Problemy Jakości 10, ISSN 0137-

8651.

Gołaś H., Mazur A. & Gruszka J. (2016). Improving an organization functioning in risk.

conditions in accordance with ISO 9001:2015. Proceedings of the 2016 International

Conference on Economics and Management Innovations, 57, pp. 257-261.

IATF16949:2016 Quality management system requirements for automotive production and

relevant service parts organizations. 1st Edition.

IATF16949, Transition,Strateg,and,Requirements_REV02,www.iatfglobaloversight.org/docs/

ISO 9000:2015 Quality management systems - Fundamentals and vocabulary.

ISO 9001:2015 Quality management systems – Requirements.

ISO/TS 16949:2009 Technical specification

Owczarzak A. (2016), IATF:2016 Przegląd najważniejszych zmian w ISO/TS

16949:2009 www.qualityaustria.com.pl/baza-wiedzy/art/iatf-169492016.

Misztal A. (2015), Kryteria brzegowe implementacji systemów zarządzania jakością

w przedsiębiorstwach branży motoryzacyjnej. Wydawnictwo Politechniki Poznańskiej.

Reiche Ch. & Bastick J. (2016), Automotive QMS Update IATF 16949:2016, www. aieg.org

Tuv-Sud.pl/automotive-information-pl -v10.pdf.

BIOGRAPHICAL NOTES

Jozef Gruszka is an Associate Professor at the Faculty of Engineering Mana-

gement, Poznan University of Technology. His research interests include surface

engineering and quality engineering. He authored and coauthored of more than 100

scientific articles and 40 industrial implementations.

Agnieszka Misztal is V-ce Dean and Lecturer at the Poznan University of

Technology, Faculty of Engineering Management, Poznan, Poland. She is involved

in Quality Engineering, Quality Management, Management of Production and

Automotive Industry. She is a member of Editorial Board of Science Journals of

Poznan University of Technology and reviewer for several world scientific

societies and international journals. She published five books and several dozen

articles in different polish and international journals and proceedings. She is lead

auditor of AQAP 2110 and ISO 9001 systems. She cooperates with many

manufacturing and service companies in the scientific projects.

... The goal of the newly developed IATF 16949:2016 standard is to develop a quality management system in a way that ensures continuous improvement, focused on preventing errors and reducing variability and loss in the supply chain [35][36][37][38][39][40]. The standard in question defines the basic requirements for quality management systems in mass production and parts manufacturing. ...

... The new IATF 16949:2016 standard is developed, similar to its earlier versions, according to the principle of process approach [36]. The assumption is that this approach makes good use of continuous improvement using the Plan-Do-Check-Act (PDCA) cycle. ...

The automotive sector is one of the key branches of the global economy. The automotive industry is also a very important sector of the Polish economy, as it generates over 8% of GDP and accounts for over 20% of the annual export value. Industry 4.0 and the effective use of modern technologies give a chance for its further dynamic development. The implementation of Industry 4.0 solutions in the business processes of automotive companies should not only take place in the area of production or logistics, as it is usually indicated, but also in their other functional areas, such as quality management, human resources management, and innovation management. The purpose of the article is to diagnose the level of maturity in the implementation of Industry 4.0 solutions in selected management areas of automotive companies operating in Poland. Using a maturity assessment tool, the authors assessed the level of maturity in six selected functional areas of an enterprise, such as production and logistics management, quality management, human resources management, social and environmental responsibility, and product innovation management. The authors also formulated conclusions and recommendations concerning actions that should be taken by automotive companies in order to achieve higher maturity levels in the implementation of Industry 4.0 solutions.

... For this, problem solving techniques are required by the quality management in the automotive industry. Regarding quality management, problem solving is fostered by the Measurement Systems Analysis work group [1], [2] and the standard IATF 16949:2016 of International Automotive Task Force [3], [4], [5] for automotive industry. The goal of this QMS standard is the development of a quality management system that provides for continual improvement, emphasizing defect prevention and the reduction of variation and waste in the supply chain. ...

... The point where the problem has escaped the control system (escape point) must be sought for and detected, as well as the moment when it could have been detected. 4 Immediate action plans ...

... IATF members typically include the following vehicle manufacturers; BMW Group, Chrysler LLC, Daimler AG, Fiat Group Automobiles, Ford Motors, General Motors Corporation, PSA Peugeot-Citroen, Renault, Volkswagen AG, and the vehicle manufacturers" respective associations AIAG (US), ANFIA (Italy), FIEV (France), SMMT (UK) and VDA (Germany) [11]. From the product design point of view, understanding of customer requirements and leading product quality planning the APQP (Advanced Product Quality Planning) process has been mandatory for its implementation [12]. In order to implement the APQP according to IATF 16949, an organization requires the engagement of CFTs that includes related functions; marketing, product design, procurement, manufacturing, and distribution. ...

... ISO/TS 16949:2009 is an attempt at the unification of standards. The new, updated version of the ISO/TS 16949:2009 standard, that has functioned since October 2016, is IATF 16949:2016Misztal and Gruszka, 2017). The conclusions that may be obtained from the anal- ysis are very significant for building an effective strategy for the development of an enterprise, based on knowledge and innovation. ...

Modern technical environments require a high degree of reliability both in machinery and in equipment. Technological progress has, on the one hand, increased this efficiency but on the other hand, it has changed the way in which this equipment and these machines have traditionally been maintained. The authors have set the following assumptions. In order to survive in the market and develop, modern production enterprises realize the assumptions of Industry 4.0, wherein the optimization of maintenance processes is important because of the financial situation. This includes the profits made by the production company and differs from traditional maintenance, by shifting towards new trends such as predictive maintenance; as such, it is crucial for the development of the company. The article is devoted to the most modern predictive maintenance strategy, in the maintenance department of a manufacturing company. The publication describes the meaning of the method, its potential and the theory of action.

... The fundamental change in the requirements of IATF 16949 [20] when is compared with the requirements in ISO/TS 16949 which are combined with changes to ISO 9001, is the addition of 'Customer Specific Needs' [13]. In the form of a formula, the change can be described as: ...

• Tulus Puji Ruswanto

In August 2016, IATF issued the new requirement of quality management system IATF 16949. With these new requirements, the automotive industry that is willing to migrate to the new version will face some challenges. The main challenge comes from the need to re-map the business processes that are needed for the internal audit. The other challenges are the readiness of the quality of the internal auditors, measure gaps, and predict the success of the certification audits. This research is based on a case study at one of the automotive manufacturing company. A framework for measuring the gap analysis of the compliance based on the automotive standards requirements (IATF 16949: 2016) through an internal quality audit score has presented in this research. The analysis has done by using a turtle diagram for risk analysis and follows by a survey on an internal quality auditor's perception. Based on the analysis, it can be determined which processes need to be audited. The research has found that there are 32 processes in the company which is needed to be an audit. The survey has indicated that internal quality auditor is ready with the new requirement of the quality management system. The internal audit's result with a weighted score shows the level that can be achieved by the company to fulfill the standard IATF 16949:2016. The gap that has shown in the spider chart depicts that an automotive manufacturing company will be able to passe the certification audit.

• Golas Hanna
• Mazur Anna
• Józef Gruszka

ISO 9001 quality management systems are very popular in Poland. The changes in the standard introduced in 2015 related to, among other things, the treatment of risk management as a vital part of corporate governance, will make companies improve the management of their systems in this respect. The aim of the article is to present a model of organization improvement which takes into account the requirements associated with risk included in the standard ISO 9001: 2015, supported by the guidelines for risk management in accordance with ISO 31000: 2012. The model is the result of compilation work based on the cooperation of the authors of the article with more than 20 industrial enterprises over the past three years.

Source: https://www.researchgate.net/publication/328635792_The_new_IATF_169492016_standard_in_the_automotive_supply_chain

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