Product Design and Manufacturing - Annotated Bibliography Example

Annotated Bibliography Chitale, A.K, and R C. Gupta. Product Design and Manufacturing. New Delhi: Prentice-Hall of India, 2007. Print. Chitale and Gupta present a comprehensive view of the design of products in this book. The authors present a diverse collection of ideas. The book highlights crucial strategies for designing products offering greater utility to the client. The book describes factors that an engineer should consider in increasing utility of the product. The book analyzes the economic and human factors that are likely to affect the design of product. The authors discuss the value of computers in achieving the desirable design. According to these authors, a computer can prove efficient in geometric modeling, engineering analysis, design review, and evaluation as well as automated drafting. Computers have transformed design formulation. Moreover, the book discusses prototyping, simulation, and their relevance in design. The authors have discussed in length the issues that deal with quality assurance in product design. Towards the end of the book, the authors venture into describing the design of new products into the market. This topic will prove very crucial to majority of engineers working for companies that desire to venture into te market with innovative engineering products. The authors emphasize on the importance of the product-market matrix. The market mix involves market penetration, product development, market development, and diversification. The aspects in the mix imply that the design of any product is critical because it determines how the product will perform in the market. A product with an outstanding design has higher chances of doing well in the market. On the contrary, poor designs lead to limited preference from potential buyers. The following subtitles concentrate on describing different types of products. The type and purpose of products determines the design that the engineers adopt. The last chapter discusses design with environment in mind that is a unique venture. This topic seeks to enlighten engineers on reducing the impacts of products to the environment through design. Unlike other books, it offers the reader examples and illustrations in the concern about environment. Concerning the environment, the authors emphasize on the value of adopting designs that can allow recyclability. This factor determines whether the design of the product will allow recycling minimizing the effects of the products on the environment. In mechanical engineering, design is a crucial aspect because it plays a central role in the eventual performance of the products in question. Mechanical engineering is becoming one of the fields where uniqueness of product design persuades potential buyers of products. This book presents reliable tips that can lead to unique products in the market. Raheja, Dev, and Louis J. Gullo. Design for Reliability. Hoboken, N.J: Wiley, 2012. Internet resource. The book dedicates the initial chapters discussing the ensuring reliability from tools to models and paradigms engineering. This book offers engineers with a guideline of accessing the reliability of a product in a P-FMECA protocol. This guideline is effective as it helps engineers in preventing the failure of products in the market. Mechanical engineering involves the design of machines and tools. The criticality of the products does not leave any space for failure. Failure of product in the end would cost any engineering company loss of sales. On the other hand, if a company’s products do not prove reliable, such failure compromises the reputation of the company. In addition, it unravels the complexity of the design of experiments (DOE). Like other books, it explains the relevance of human factors in design. Since safety of any product is becoming very crucial, the book discusses the integration of design and safety measures. The issue of safety of humans discussed is of critical value. Mechanical engineering products are machinery and tools for use in different sectors. If the design does not ensure safety, then the product will put the lives of the user at risk. The book offers guidelines that will help an engineer ensure that products have a safety margin that does not pose risk to life. It elaborates the measures of mitigating product hazards and defines acceptable hazard. The book also discusses design for extreme environments. The chapter offers an anecdotal introduction into the chapter in order to highlight the importance of design in relation to extreme climates. The anecdote makes it clear that a mechanical engineer needs to think proactively when designing products for use in extreme climates. The design must be reliable enough to prove efficient in extreme climate features such as high temperatures. Other topics include risk management and health issues. This book explores factors that affect the reliability of products with the client in mind. This book appears as a guide for engineers in ensuring that they design products proactively with market needs in mind. In addition, unlike other books, it provides a combination of strategies that increase product reliability. The book is a reliable source for students and practicing engineers working designing complex systems. The book provides multiple relevant diagrams to help the reader understand concepts easily. This book ties up ideas that relate to the design well to enable the reader to paint the entire connection of other parts of production and the design. Being a guideline, it becomes a favorable companion for reference. Tooley, Michael H. Design Engineering Manual. Amsterdam: Butterworth-Heinemann, 2010. Print. Tooley targets to present a comprehensive idea about the critical issues in design. He uses the approach of dividing the book into sections for ease of understanding. Each section tackles one of the critical issues that affect design. He discusses creativity in design in the initial chapters of the book. The book has several sections with each individual section addressing a different issue. Section 1 introduces the reader to the contents of the book. Section 2 elaborates the design process in detail. It defines how engineers move from an idea to useful information that can lead to the production of a product that satisfies a need. Most of ideas are innovations and can have immense effects on the product. This book offers guidelines on how ideas can become useful innovative products that lead to enormous sales. The third section of the book highlights procedures involved in product development. The fourth section of the book discusses design and the relevance of materials. It is worth noting the importance that the author accords to the relationship between materials and impacts they have on the environment. The author presents details of how design can ensure that the product has minimal impacts on the environment. The book also addresses the effect of new materials to the design process. Some of the materials discussed include different types of steel. Inclusion of new materials in the design process presents new challenges and opportunities for the engineer. The new materials will affect the cost and reliability of product because different materials have varying attributes. Therefore, an engineer should understand the potential impact of the design process to the product. The chapter highlights the use of new metal alloys. Since alloys have varying features, application of anew alloy will give the product new qualities and it will pose a question to the reliability of the product. The section highlights how the choice of material affects the design. Towards the end, in section seven and eight, the book discusses the concepts of reliability and safety issues. This Topic augments what other books offer on the issue of the safety of products. Some clients will consider buying products after conviction that the product offers high safety. There are records of accidents that have resulted from products with designs that do not guarantee safety. Therefore, potential buyers will consider owning products that do not pose any risk. The book complements other sources in offering useful design tips. Bernard, Alain. Global Product Development: Proceedings of the 20th Cirp Design Conference, Ecole Centrale De Nantes, Nantes, France, 19th-21st April 2010. Heidelberg, [Germany: Springer, 2011. Print. This unique source presents an analysis of documents presented in a design conference. It offers a diverse approach to the issue of design because it relies on different participant in the conference. The primary documents presented in the book give the reader a glimpse of the global advances in mechanical engineering. It provides a realistic view of the issues and opinions of engineers in the real practice. It has several chapters each discussing and presenting documents from the conference that offer insights into any of the critical issues of design of products. The documents present theories, guidelines, experiments, and opinions of participants of the conference. The book offers the reader suggestions of overcoming the complexities in the field of engineering. The fact that the book presents real situations makes it the best preference for any engineer who has the quest to connect with the challenges and solution of other engineers. It is a reliable source for engineers who are probing into research through literature review as it offers a collection of literature. The book acknowledges that it is addressing the issue from a global front and begins by highlighting the changes that have occurred in the field by providing background information. Some documents present the most recent approaches in the field. Like other authors, the book explores the potential of computers in improving design. The availability of literature on the use of new technology presents engineers with the traditional engineering overview a new realm of concepts. The numerous suggestions from a global front will prompt engineers to adopt the 21st engineering tactics. In addition, the author, like others in the recent past realizes the need to discuss design in relation to the environment. It presents valuable peer-reviewed articles that provide insights into the findings of recent researches in design such as geometric modeling variations. Being a collection of primary sources, the book stands out among others. This makes it a very reliable source for engineers in practice and studies. At the end of each document, it presents the work-cited pages that can serve as additional references for the reader. These references present a wide unfiltered collection of sources, which is an added advantage to the reader who requires understanding the global trends of engineering. The book provides the reader with a chance to compare different approaches in the field. Unlike other books that offer secondary information, this book increases its reliability with primary documents. Pfeifer, Michael. Materials Engineering Selection: A Product Life Cycle Approach. Oxford: Butterworth-Heinemann, 2007. Web 20 October, 2012. This internet source presents a fundamental analysis the effect of material selection in design. It paints a picture for the engineer of how crucial the materials selected are because they affect every aspect of the product. It offers a valid introduction that attracts the mind of the reader. This introduction serves to emphasize the gross impact that the selection of materials can have on the product. It acts as an anecdote to the reader presenting him with a justification on why the book is a perfect choice. The book then offers the reader a clear outline of the design requirements and process. The material selection process involves identification of the product design and element design requirement, potential materials, evaluation of the materials, and determining whether the materials meet the selection criteria. In addition, the source offers the process of selecting materials effectively. Flow charts depicting the outline of the process are an additional complement to the content. Moreover, the book offers a discussion of material qualities. There is an elaboration of how these materials affect the design and the product reliability. The book dedicates an entire chapter to consider the effect of degrading materials in the product prior to design. The book highlights the criticality of considering the rate at which materials degrade because that will determine the reliability duration. Using materials that degrade easily will reduce its reliability duration. This book presents engineers with the tips of choosing materials that will lead to production of products that are reliable. This aspect is very critical because majority of companies do not think of the materials in the long-term effects. The book is a good source for engineers seeking to understand the selection of materials. It presents an overview of the effects of materials selected something that other books rarely address. The content concerning the effects will help an engineer see beyond current process and think proactively about the product contrary to the short-term overview that many engineers consider. In addition, it offers the reader guidelines of developing products according to market trends just like other related books. The book stands out among other because it addresses the material perspective exhaustively enabling the reader to get the real picture. The reader can get the real picture because the book develops all the concepts in a systematic order. Moreover, book challenges engineers to build more attributes by enlisting the qualities of good designers. Jadon, Vijay K, and Suresh Verma. Analysis and Design of Machine Elements. New Delhi: I.K. International Pub. House, 2010. Print. This book presents definitions of concepts and conditions in engineering. It offers the reader fundamental understanding into many engineering concepts making them easier. The book addresses the issue of material choice broadly by describing procedures, methods, and preferred materials providing reasons why these are preferable for different procedures. The book then delves into elaborating crucial procedures in engineering such as belts in chapter fourteen. Due to the procedures, methods presented, the reader can see how important selection of materials is in making any product. The book emphasizes on the qualities of materials just as other do. Chapter 2 of the book highlights how the function of a product determines the type of materials chosen. The chapter describes in depth how understanding the scope of function of the product is the best guideline in choosing the most suitable materials. The chapter ties together the quality of materials and the function of the product. The book presents examples of this by illustrating the selection of materials that can help a product support a load. With similar examples, the authors highlight crucial factors that an engineer should consider before settling on the materials for use in the design of the product. Such examples emphasize the criticality of material selection, an idea that many authors have concentrated on describing. In chapter three, the book describes how manufacturing procedures occur depending on the type of materials chosen by the engineers. The book offers the reader many diagrams and charts that increase the understanding of basic contents. Through this, the book resembles other sources that provide the reader with diagrams to complement the theory offered. The fact that this book describes different procedures in detail and in separate chapters makes it is an engineer’s trusted companion for easy reference. The test questions appearing after each chapter help test the understanding of the reader. The questions serve to prompt engineers to ascertain critical factors presented in a chapter before moving on to a new chapter. The book is also useful for practicing engineers as a reference in daily activities. The book is best for beginners in the engineering field who have the quest of developing the relevant competence. The unique examples that the authors present help build the understanding of engineering students. In addition, the processes described help the reader have a glimpse of the practical application of engineering concepts. The book complements and augments other sources in providing guidelines towards material selection. Ashby, M F, Hugh Shercliff, and David Cebon. Materials: Engineering, Science, Processing and Design. Oxford: Butterworth-Heinemann, 2010. Internet resource. This book offers a deeper and extensive content than other books describing material selection in engineering making it a number one option for students who value extensive content. The book has 527 pages dedicated to providing engineering students a companion that matches majority of the coursework in many institutions. Chapter two of the book presents the reader with a glimpse of the different families of materials. There is an elaboration of the profile of properties that each of the family presents. The detailed discussion of different families of materials gives the reader broad range of information concerning different materials. Chapter 3 introduces an important aspect that each engineer should know. The concept of applying strategic thinking in order to match the selection of material and design is one aspect that any engineer should strive to achieve. The creativity with which the engineer matches the materials and the design determine the product that results. Since the features of the product are very crucial, the authors included an entire chapter on the essence of strategy in attaining the desired product. It describes a great variety of procedures and outlines the materials that are for use in different circumstances. It describes the purposes of different materials. It handles qualities of materials in different chapters making it reliable for reference. For example, an engineer intending to understand the materials that are stiff with weight density goes straight to that chapter. The book presents the essence of critical thinking in selecting materials. This element is very crucial as it highlights the importance of criticality when selecting materials for each individual product. The book mentions that criticality in selecting material will help an engineer develop reliable strategies in selecting materials that will prove compatible to the design. The book is different from other books because at the introduction of each chapter, it breaks down the content in that chapter. It becomes a resourceful book for research because a researcher can easily trace the topic of interest from the chapter’s table of contents. Like other books, it is rich in flow charts and diagrams that make the reader understand the content further. In addition, the book gives attention to the issue of product reliability in connection with the environment. This chapter augments what other book offer concerning reliability of products and the impacts to the environment. This chapter qualifies the book for addition into the list of the sources that provide insightful information on how engineers can ensure product reliability and environmental sustainability. Madsen, David A, and David P. Madsen. Print Reading for Engineering and Manufacturing Technology. Clifton Park, NY: Delmar, Cengage Learning, 2013. Print. This is among the most recent sources about material selection in engineering. The book adopts a practical approach to provide the student with immense guidelines on the real practice in the industry. The book offers the readers content that is similar to the most current industrial operating procedures. It gives the reader an equivalent of the real life application of procedures. Engineers seeking updates on practices in the field will definitely find the source reliable. Concerning material selection, it offers the reader helpful insights that prove crucial in electronic filing, discovery and other functions. The book provides the reader with real life illustrations of majority of the concepts explained in the book. These illustrations make the book a hub of reliable engineering information on the essence of selecting materials. Pages 160-472 of the book provide the reader with invaluable guidelines on analyzing engineering drawings. These guidelines help students in acquiring skills that are essential in diagram interpretation and material selection. The authors realize the dire need of engineers of gaining competence in interpreting diagrams. The book also provides an engineer with tips of identifying different materials. The tips serve to complement what other authors have outlined about the selection of materials. For example, the reader can find concise tips on selecting plastics, and the book outlines the critical factors that one should consider. Although the book dedicates only one chapter to material selection and the implications in manufacturing, it offers an extensive discussion. The single chapter on material selection provides the reader with the relevant information, but with precision. Addition, the chapter ties the relevance of the design and material selections, which are the most important factors that determine the product that results. The book comes with many illustrations, examples, diagrams approved by many engineering organizations. Just like other sources, the book realizes the need for engineers to understand and interpret concepts from the diagrams. This makes it a worthwhile tool in understanding engineering design and material concepts. The book also provides updates on the ethics of the engineering field, laws governing the field and other relevant changes. Unlike other books, these authors enlighten engineers on legal and ethical concepts. These updates are crucial to any engineer who intends to keep his practice within the ethical boundaries. With such updates, the book helps the engineers to avoid breaching legal requirements. The compilation of different concepts presents a reader with diverse knowledge in one volume. Davies, Geoff. Materials for Automobile Bodies. Boston, MA: Butterworth-Heinemann, 2003. Print. This book stands among the rest because it provides the reader with a specific approach to material selection while other books offer general information. It has specific target for engineers in the automobile industry. The industry is becoming the most lucrative of all industries in the current world. With new models of automobiles suited for different ages, purpose and gender, the industry requires strategy in selection of materials. Automobiles perform multiple of functions and the materials chosen must reflect the intended function. The author realizes then importance of material selection in this industry and offers comprehensive strategies and insights into the selection of materials for the automobile manufacturing. The book provides recent selection strategies. It highlights the parts that require steel and those that require lighter metals offering supporting reasons. The book offers an initial comprehensive overview of the different parts of the automobile body and the materials utilized in the body. This chapter offers specific understanding because it ties the principles of material selection in addressing different parts of the automobiles. The book outlines the suitability of each material used in automobile manufacture. In the end, the book highlights environmental issues that affect the choice of materials in the automobile industry. With automobiles posing a great risk of environmental pollution, the book highlights the necessity of proactive thinking in the industry. In chapter two, the book highlights the material perspective in relation to the design. Like other sources, the book emphasizes on the importance between the relationships between the two concepts. The author describes the importance of using the right criteria in material selection with an objective of producing a product with the desired traits. This will help engineers understand the criticality of embarking on a clear understanding of the desired product before venturing into its design. Such understanding will provide any engineer with prompts of being more proactive. Just like other books, the book ties up ideas in engineering logically for the reader to understand concepts clearly and be able to link them up. The book succeeds in painting a mental picture of what an engineer would require to produce an automobile. Similar to other books, there are multiple diagrams to help the reader comprehend most of the concepts. Like other authors, the author realizes the efficiency of diagrams in making concepts clear. This book serves to augment what other sources have described in general in a specific context. Work Cited Ashby, M F, Hugh Shercliff, and David Cebon. Materials: Engineering, Science, Processing and Design. Oxford: Butterworth-Heinemann, 2010. Internet resource. Bernard, Alain. Global Product Development: Proceedings of the 20th Cirp Design Conference, Ecole Centrale De Nantes, Nantes, France, 19th-21st April 2010. Heidelberg, [Germany: Springer, 2011. Print. Chitale, A.K, and R C. Gupta. Product Design and Manufacturing. New Delhi: Prentice-Hall of India, 2007. Print. Davies, Geoff. Materials for Automobile Bodies. Boston, MA: Butterworth-Heinemann, 2003. Print. Jadon, Vijay K, and Suresh Verma. Analysis and Design of Machine Elements. New Delhi: I.K. International Pub. House, 2010. Print. Madsen, David A, and David P. Madsen. Print Reading for Engineering and Manufacturing Technology. Clifton Park, NY: Delmar, Cengage Learning, 2013. Print. Pfeifer, Michael. Materials Engineering Selection: A Product Life Cycle Approach. Oxford: Butterworth-Heinemann, 2007. Web 20 October, 2012. Raheja, Dev, and Louis J. Gullo. Design for Reliability. Hoboken, N.J: Wiley, 2012. Internet resource. Tooley, Michael H. Design Engineering Manual. Amsterdam: Butterworth-Heinemann, 2010. Print. Read More