Voids in Materials

Informationen zum Autor Gary Gladysz is an adjunct associate professor of materials science and engineering at the University of Alabama at Birmingham, United States and founder at X-Link 3D. He received his PhD from the New Mexico Institute of Mining and Technology, where he participated in the NATO Collaborative Program with the German Aerospace Institute (DLR). Since receiving his PhD, he has led research efforts in university, government, and industrial settings. He has extensive research experience designing and characterizing thermoset composite materials for 3D printing, fibrous composites, ceramic composites, polymers, composite foams, and thin films. As a technical staff member at Los Alamos National Laboratory (LANL), he was technical lead for rigid composites and thermoset materials. In 2005 he was awarded the LANL Distinguished Performance Group Award for his work leading materials development on the Reliable Replacement Warhead Feasibility Project. Additionally, while the US Army, he developed composite materials and test protocols for ballistic head protection. He has served on funding review boards for LANL, National Science Foundation, ACS, and the Lindbergh Foundation. He has been guest editor on many issues of leading materials science journals, including Journal of Materials Science and Materials Science & Engineering. He has organized many international conferences/symposia on syntactic foams, composite materials, and innovative materials for additive manufacturing. He started and chairs the ECI international conference series on Syntactic and Composites Foams. He currently lives in Boston, Massachusetts, United States. Professor Krishan Chawla obtained his BS from Banaras Hindu University and his MS and PhD degrees from the University of Illinois at Urbana-Champaign, United States. He has taught and/or done research at (in alphabetical order) Arizona State University, Tempe, AZ (United States); Ecole Polytechnique Federale de Lausanne (Switzerland); Federal Institute for Materials Research and Testing (BAM), Berlin (Germany); German Aerospace Research Institute (DLR), Cologne (Germany); Instituto Militar de Engenharia (Brazil); Laval University (Canada); Los Alamos National Lab (United States); New Mexico Tech (United States); Northwestern University (United States); University of Alabama at Birmingham (United States); and University of Illinois at Urbana-Champaign (United States). He has published extensively in the areas of processing, microstructure, and mechanical behavior of materials, in general, and composite materials and fibers, in particular. Besides being a member of various professional societies, he is Editor of International Materials Review (published jointly by ASM International, United States and the Institute of Materials, London) and a member of the Editorial Board of various journals. During 1989-1990, he served as a Program Director for metals and ceramics in the Division of Materials Research, National Science Foundation, Washington, DC, United States. He serves as a consultant to the industry, US national laboratories, and various US federal government agencies. In 1992 he was the recipient of the Eshbach Society Distinguished Visiting Scholar Award from Northwestern University. During the period of June, 1994 through June, 1995 he held the US Dept. of Energy Faculty Fellowship at Oak Ridge National Lab. In 1996 he was given the Distinguished Researcher Award by the New Mexico Tech. In 1997 he was made a Fellow of ASM international. In 2000 he was awarded the Distinguished Alumnus award by Banaras Hindu University. He received the President's Award for Excellence in Teaching, University of Alabama at Birmingham in 2006. In 2018 he was awarded the Albert Nelson Marquis Lifetime Achievement Award. KlappentextVoids in Materials treats voids of different shapes and forms in various materials, and examines their effects on material properties. The book covers the origins of voids in materials, how they are sometimes introduced in the form of hollow spheres, and the resultant properties of materials containing voids.

There are many books that focus on foams (which intentionally incorporate voids into materials) and that cover voids incidental to or unwanted in the fabrication of non-porous materials. In fact, all materials have voids. This book starts from the premise that voids are pervasive in all material on some level. It goes beyond foams to provide a comprehensive overview of voids, a central reference for scientists and engineers to use for the effect of voids in materials.

Inhalt

Void in Materials: From Unavoidable Defects to Designed Cellular Materials By *Gary M. Gladysz and Krishan Chawla

• Preface

  1. Introduction

  2. Intrinsic voids, ideal materials, and real materials

  3. Intrinsic voids in polymers

  4. Methods of introducing intentional voids into materials

  5. Methods of introducing intentional voids into particles and fibers

  6. Cellular materials

  7. Applications

  8. Void characterization

  Glossary