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This is a practical guide to injection molding based on sound engineering fundamentals. It is an ideal course book for mechanical engineers with limited plastic material and injection molding experience, but is also well applicable to self-study or reference. It starts with an overview of plastic material fundamentals. Each section includes material considerations associated with the injection molding process. For example, the molecular weight section shows that use of lower molecular weight plastics are commonly used for the injection molding to minimize orientation, reduce fill time, improve knit line strength. Then, the basics of the injection molding machine, tooling, auxiliary equipment and molding process are introduced. The machine components and component selection for a given application are next considered in more detail.The process/procedure for establishing optimum process conditions for a "new" mold and material (not run previously by the reader) are next described. Finally, a range of other more specialized injection molding processes that are still of practical importance are covered.From a leading author and educator in the area of injection molding, this book gives engineers and process technicians the knowledge and confidence they need to produce high-quality parts reliably and efficiently.
About the author
Dr. Robert Malloy is Professor Emeritus and former Chair of the Plastics Engineering Department at the University of Massachusetts Lowell. He is an active researcher and consultant in the areas of plastics processing, design, and recycling. Dr. Malloy is the author of many publications and patents, including a textbook on the subject of plastic part design. Prior to joining the faculty at Lowell, he was an instructor at the Algerian Petroleum Institute in Annaba, Algeria.
Summary
This is a practical guide to injection molding based on sound engineering fundamentals. It is an ideal course book for mechanical engineers with limited plastic material and injection molding experience, but is also well applicable to self-study or reference.
It starts with an overview of plastic material fundamentals. Each section includes material considerations associated with the injection molding process. For example, the molecular weight section shows that use of lower molecular weight plastics are commonly used for the injection molding to minimize orientation, reduce fill time, improve knit line strength. Then, the basics of the injection molding machine, tooling, auxiliary equipment and molding process are introduced. The machine components and component selection for a given application are next considered in more detail.
The process/procedure for establishing optimum process conditions for a “new” mold and material (not run previously by the reader) are next described. Finally, a range of other more specialized injection molding processes that are still of practical importance are covered.
From a leading author and educator in the area of injection molding, this book gives engineers and process technicians the knowledge and confidence they need to produce high-quality parts reliably and efficiently.
