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Material Innovation: Packaging Design Andrew H. Dent and Leslie Sherr

Thames & Hudson, 2015 208 pages, $29.95 ISBN 9780500291979

Published online by Cambridge University Press:  07 November 2016

Abstract

Type
Book Review
Copyright
Copyright © Materials Research Society 2016 

This is a well-designed book filled with two- to four-page case studies of innovations in packaging, a short section on the materials insights used in packaging, and illuminating photographs. Rather than electronic packaging, this book deals more with compression-molded plastic containers for creams and innovative paper packaging for food. It is published in association with the Material ConneXion consulting agency and features how packaging can be used not only to increase sales, but also to add beauty and functionality to a product. This book not only deals with packaging as a marketing tool, but also grapples with how packaging can be used to both improve the human experience and be environmentally friendly.

The book has six chapters. The chapter “Getting to Zero” is focused on making products more environmentally sustainable, for instance, using origami-type folding to create boxes that do not have toxic glues, food containers that are wholly edible, and laser-etched produce whereby lasers are used to write information about the picking date and freshness of the produce. The chapter “Functional Forms” features a shipping box that can be transformed into a workbench, and the life-saving Aid Pod that provides antidiarrheal medications to developing countries by shipping them for free in Coca-Cola cases in the spaces between bottles. The remaining four chapters focus on dispensing systems, advanced protection, interactive packaging, and “mass craft,” or the attempt to create personalized items that are mass produced.

Some of the concepts are quite ingenious. For instance, an innovative egg package called the Gogol Mogol has multifunctional capability to store, ship, cook, and serve eggs. Pull a tab on the carton, and the egg can be boiled in minutes directly in the container via the exothermic reaction of calcium oxide and water. There are also several features of packaging to improve human hygiene and safety—the XSTAT syringe can be used to insert anticoagulant-coated materials into a wound in seconds to stop the injured from fatal bleeding. The Drinkable Book provides sheets of silver nanoparticle-embedded paper that can be used to purify and filter 100 liters of water for safe drinking. The PeePoo bag is a low-cost portable toilet for developing countries. The book also describes the packaging of a champagne bottle. On the other end of the technical spectrum, a modular vitrification system is described for the purpose of safely containing nuclear waste in glass. The book concludes with a short section on the recyclability of materials, and then provides a Material ConneXion directory of the materials used in the book’s packaging contents.

The reader will come away with many simple lessons, such as pouches are now popular in packaging because they are lightweight and easy to ship. Most of the featured innovations are created around materials such as low-density polyethylene and cardboard—materials that sell for pennies on the dollar. Those interested in using materials for packaging will find this book fascinating. Anyone interested in the beauty of mechanical design will be inspired. However, materials scientists looking for advanced materials ideas should probably look elsewhere.

Reviewer: Karen Swider Lyons researches fuel-cell and battery materials and their integration into naval systems in Alexandria, Va., USA.