Advanced Product Quality Planning


Book Description

This book defines, develops, and examines the foundations of the APQP (Advanced Product Quality Planning) methodology. It explains in detail the five phases, and it relates its significance to national, international, and customer specific standards. It also includes additional information on the PPAP (Production Part Approval Process), Risk, Warranty, GD&T (Geometric Dimensioning and Tolerancing), and the role of leadership as they apply to the continual improvement process of any organization. Features Defines and explains the five stages of APQP in detail Identifies and zeroes in on the critical steps of the APQP methodology Covers the issue of risk as it is defined in the ISO 9001, IATF 16949, the pending VDA, and the OEM requirements Presents the role of leadership and management in the APQP methodology Summarizes all of the change requirements of the IATF standard




Advanced Quality Planning


Book Description

Advanced Quality Planning: A Commonsense Guide to AQP and APQPis the first book dedicated to explaining with clarity and detail the total advanced quality planning (AQP) process and how to set quality planning in the framework of a business strategy. The book provides a close look at the basic and advanced concepts of AQP so that both the novice and experienced user will be able to apply AQP appropriately and effectively. In addition, you will learn the "Big Three" automotive companies' required use of Advanced Product Quality Planning (APQP), a specialized version of AQP that emphasized the product orientation of quality. A clear itemized list of Chrysler, GM, Ford, and Tier I suppliers requirements is included, illustrating what they would like to see implemented in their suppliers' processes. Written in a practical format, the book takes you step-by-step through the advanced quality planning methodology, providing you with an overview and discussion of the role of teams in AQP, and its key components including: scheduling, creating a product definition, prototype development, manufacturing preparedness, analytical techniques, documentation, reliability and maintainability, and their implementation. Also included are checklists to help plan the actions that will be appropriate for their respective projects, and appendixes containing a sample business plan and a case study of Chrysler's Process Sign-Off, which demonstrates the results of effective AQP implementation.







Effective FMEAs


Book Description

Outlines the correct procedures for doing FMEAs and how to successfully apply them in design, development, manufacturing, and service applications There are a myriad of quality and reliability tools available to corporations worldwide, but the one that shows up consistently in company after company is Failure Mode and Effects Analysis (FMEA). Effective FMEAs takes the best practices from hundreds of companies and thousands of FMEA applications and presents streamlined procedures for veteran FMEA practitioners, novices, and everyone in between. Written from an applications viewpoint—with many examples, detailed case studies, study problems, and tips included—the book covers the most common types of FMEAs, including System FMEAs, Design FMEAs, Process FMEAs, Maintenance FMEAs, Software FMEAs, and others. It also presents chapters on Fault Tree Analysis, Design Review Based on Failure Mode (DRBFM), Reliability-Centered Maintenance (RCM), Hazard Analysis, and FMECA (which adds criticality analysis to FMEA). With extensive study problems and a companion Solutions Manual, this book is an ideal resource for academic curricula, as well as for applications in industry. In addition, Effective FMEAs covers: The basics of FMEAs and risk assessment How to apply key factors for effective FMEAs and prevent the most common errors What is needed to provide excellent FMEA facilitation Implementing a "best practice" FMEA process Everyone wants to support the accomplishment of safe and trouble-free products and processes while generating happy and loyal customers. This book will show readers how to use FMEA to anticipate and prevent problems, reduce costs, shorten product development times, and achieve safe and highly reliable products and processes.




Total Quality Management for Project Management


Book Description

Finding ways to improve margins can be the difference between organizations that thrive and those that simply survive during times of economic uncertainty. Describing why cost reductions can be just as powerful as increases in revenue, Total Quality Management for Project Management explains how to integrate time-tested project management tools with the power of Total Quality Management (TQM) to achieve significant cost reductions. Detailing the ins and outs of applying project management methods to TQM activities, the book provides the understanding you’ll need to enhance the effectiveness of your TQM work. To clear up any confusion about what a true quality improvement is, it includes sections that cover the fundamentals of total quality management and defines the terms used throughout the text. The book examines profitability as it relates to product cost—including the initial work determining investment paybacks. It compares TQM/PM versus Six Sigma and illustrates the use of scrum in the context of TQM for improving quality initiatives. Complete with real-world success stories that facilitate comprehension, it illustrates methods that can help to minimize distractions and keep your team focused. The authors consider the full range of quality improvement tools as applied within the framework of project management. For the section of the book on the application of TQM to scrum, they demonstrate how these analytical methods can be used on the data produced within a scrum project and made into actionable information. Filled with innovative methods for improving costs, the text arms you with the tools to determine the approaches best suited to your corporate culture and capabilities.




Design Process Improvement


Book Description

vi The process is important! I learned this lesson the hard way during my previous existence working as a design engineer with PA Consulting Group's Cambridge Technology Centre. One of my earliest assignments involved the development of a piece of labo- tory automation equipment for a major European pharmaceutical manufacturer.Two things stick in my mind from those early days – first, that the equipment was always to be ready for delivery in three weeks and,second,that being able to write well structured Pascal was not sufficient to deliver reliable software performance. Delivery was ultimately six months late,the project ran some sixty percent over budget and I gained my first promotion to Senior Engineer. At the time it puzzled me that I had been unable to predict the John Clarkson real effort required to complete the automation project – I had Reader in Engineering Design, genuinely believed that the project would be finished in three Director, Cambridge Engineering weeks.It was some years later that I discovered Kenneth Cooper's Design Centre papers describing the Rework Cycle and realised that I had been the victim of “undiscovered rework”.I quickly learned that project plans were not just inaccurate,as most project managers would attest,but often grossly misleading,bearing little resemblance to actual development practice.




Managing to Learn


Book Description

"The process by which a company identifies, frames, acts and reviews progress on problems, projects and proposals can be found in the structure of the A3 process ... follow the story of a manager ... and his report ... which will reveal how the A3 can be used as a management process to create a standard method for innovating, planning, problem-solving, and building structures for a broader and deeper form of thinking - a practical and repeatable approach to organizational learning"--Publisher's description.




Advances in Materials Research


Book Description

This book comprises select peer-reviewed proceedings of the International Conference on Advances in Materials Research (ICAMR 2019). The contents cover latest research in materials and their applications relevant to composites, metals, alloys, polymers, energy and phase change. The indigenous properties of materials including mechanical, electrical, thermal, optical, chemical and biological functions are discussed. The book also elaborates the properties and performance enhancement and/or deterioration in order of the modifications in atomic particles and structure. This book will be useful for both students and professionals interested in the development and applications of advanced materials.




Systems Engineering for Automotive Powertrain Development


Book Description

For the last century, the automotive industry has been dominated by internal combustion engines. Their flexibility of application, driving range, performance and sporty characteristics has resulted in several generations of this technology and has formed generations of engineers. But that is not the end of the story. Stricter legislation and increased environmental awareness have resulted in the development of new powertrain technologies in addition and parallel to the highly optimized internal combustion engine. Hybrid powertrains systems, pure battery electric systems and fuel cell systems, in conjunction with a diverse range of applications, have increased the spectrum of powertrain technologies. Furthermore, automated driving together with intelligent and highly connected systems are changing the way to get from A to B. Not only is the interaction of all these new technologies challenging, but also several different disciplines have to collaborate intensively in order for new powertrain systems to be successfully developed. These new technologies and the resulting challenges lead to an increase in system complexity. Approaches such as systems engineering are necessary to manage this complexity. To show how systems engineering manages the increasing complexity of modern powertrain systems, by providing processes, methods, organizational aspects and tools, this book has been structured into five parts. Starting with Challenges for Powertrain Development, which describes automotive-related challenges at different levels of the system hierarchy and from different point of views. The book then continues with the core part, Systems Engineering, in which all the basics of systems engineering, model-based systems engineering, and their related processes, methods, tools, and organizational matters are described. A special focus is placed on important standards and the human factor. The third part, Automotive Powertrain Systems Engineering Approach, puts the fundamentals of systems engineering into practice by adding the automotive context. This part focuses on system development and also considers the interactions to hardware and software development. Several approaches and methods are presented based on systems engineering philosophy. Part four, Powertrain Development Case Studies, adds the practical point of view by providing a range of case studies on powertrain system level and on powertrain element level and discusses the development of hybrid powertrain, internal combustion engines, e-drives, transmissions, batteries and fuel cell systems. Two case studies on a vehicle level are also presented. The final part, Outlook, considers the development of systems engineering itself with particular focus on information communication technologies. Even though this book covers systems engineering from an automotive perspective, many of the challenges, fundamental principles, conclusions and outlooks can be applied to other domains too. Therefore, this book is not only relevant for automotive engineers and students, but also for specialists in scientific and industrial positions in other domains and anyone who has to cope with the challenge of successfully developing complex systems with a large number of collaborating disciplines.