Introduction | SpringerLinkIn this engineering course, we will explore the processing and structure of cellular solids as they are created from polymers, metals, ceramics, glasses and composites. We will derive models for the mechanical properties of honeycombs and foams, and we will discover how the unique properties of these materials can be exploited in applications such as lightweight structural panels, energy absorption devices, and thermal insulation. The Cellular Solids: Structures, Properties and Engineering Applications course provides a general understanding of cellular solids. Following this module, learners will be prepared to take one or both add-on modules to learn more about applications in medicine and to cellular materials in nature:. Taken together, these three modules provide similar content to the MIT subject 3. Receive an instructor-signed certificate with the institution's logo to verify your achievement and increase your job prospects. Add the certificate to your CV or resume, or post it directly on LinkedIn.
Cellular Solids 1: Structures, Properties and Engineering Applications
The design of cellular materials has recently undergone a paradigm shift, enabled by developments in Additive Manufacturing and design software. No longer do cellular materials have to be limited to traditional shapes such as honeycomb panels or stochastic foams. With this increase in design freedom comes a significant increase in optionality, which can be overwhelming to the designer. This paper aims to provide a framework for thinking about the four key questions in cellular material design: how to select a unit cell, how to vary cell size spatially, what the optimal parameters are, and finally, how best to integrate a cellular material within the structure at large. These questions are posed with the intent of stimulating further research that can address them individually, as well as integrate them in a systematic methodology for cellular material design. Different state-of-the-art solution approaches are also presented in order to provoke further investigation by the reader.
In this new edition of their classic work on Cellular Solids, the authors have brought the book completely up to date, including new work on processing of metallic and ceramic foams and on the mechanical, electrical and acoustic properties of cell Lorna J. Gibson is the Matoula S. Her research interests focus on the mechanics of materials with a cellular structure such as honeycombs and foams and she is co-author, with Mike Ashby, of Cellular Solids: Structure and Properties 2nd edition, Cambridge University Press, Michael F.
View Larger Image. Ask Seller a Question. Title: Cellular Materials in Nature and Medicine. Publisher: Cambridge University Press. Book Condition: Used: Good. Bringing to life the fascinating structures and unique mechanics of natural and biomedical cellular materials, this book is an expert guide to the subject for graduates and researchers.
Request PDF on ResearchGate | On Jan 1, , L.J. Gibson and others published Cellular Materials in Nature and Medicine.
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Skip to search form Skip to main content. In reality, and certainly for biological tissues, the internal volumes are instead filled with fluids, fibers or other bulk materials. Inspired by these architectures, this paper presents a continuum model for composite cellular materials. A series of closely spaced independent linear-elastic springs approximates the filling material. View via Publisher.