Synopses & Reviews
This new edition of J. E. Gordon's classic introduction to the properties of materials used in engineering answers some fundamental and fascinating questions about how the material world around us functions. In particular, Gordon focuses on so-called strong materials, such as metals, wood, ceramics, glass, and bone. For each material in question, Gordon explains the unique physical and chemical basis for its inherent structural qualities in irrepressibly fresh and simple terms. He also shows how an in-depth understanding of these materials' intrinsic strengths (and weaknesses) guides our engineering choices, allowing us to build the structures that support our modern society. Philip Ball's new introduction describes Gordon's career and the impact of his innovations in materials research, while also discussing how the field has evolved since Gordon wrote this enduring example of first-rate scientific communication.
Review
Praise for Princeton's original edition: "Princeton has brought to the public a highly readable treatise on the science of materials that emphasizes the strength of chemical and physical bonds, crystal structure, and cracks. . . . The author admits the necessity of being highly selective in the materials he can discuss so broadly, but he ably presents chemical and physical problems and how they have been solved in an orderly fashion, and he shows that the strength of materials is influenced as much by their environment and loading systems as by their own structures and shapes."--S. W. Dobyns, Science Books and Films
Review
"I was thoroughly charmed and won over by this book which I now recommend to all my colleagues."--Daniel C. Mattis, American Journal of Physics
Review
I was thoroughly charmed and won over by this book which I now recommend to all my colleagues. Daniel C. Mattis
Review
Praise for Princeton's original edition: "Princeton has brought to the public a highly readable treatise on the science of materials that emphasizes the strength of chemical and physical bonds, crystal structure, and cracks. . . . The author admits the necessity of being highly selective in the materials he can discuss so broadly, but he ably presents chemical and physical problems and how they have been solved in an orderly fashion, and he shows that the strength of materials is influenced as much by their environment and loading systems as by their own structures and shapes. American Journal of Physics
Synopsis
J. E. Gordon's classic introduction to the properties of materials used in engineering answers some fascinating and fundamental questions about how the structural world around us works. Gordon focuses on so-called strong materials--such as metals, wood, ceramics, glass, and bone--explaining in engaging and accessible terms the unique physical and chemical basis for their inherent structural qualities. He also shows how an in-depth understanding of these materials' intrinsic strengths--and weaknesses--guides our engineering choices, allowing us to build the structures that support our society. This work is an enduring example of first-rate scientific communication. Philip Ball's introduction describes Gordon's career and the impact of his innovations in materials research, while also discussing how the field has evolved since Gordon wrote this enduring example of first-rate scientific communication.
Synopsis
This new edition of J.E. Gordon's classic introduction to the properties of materials used in engineering answers some fundamental and fascinating questions about how the material world around us functions. In particular, Gordon focuses on so-called strong materials, such as metals, wood, ceramics, glass, and bone. For each material in question, Gordon explains the unique physical and chemical basis for its inherent structural qualities in irrepressibly fresh and simple terms. He also shows how an in-depth understanding of these materials' intrinsic strengths (and weaknesses) guides our engineering choices, allowing us to build the structures that support our modern society. Philip Ball's new introduction describes Gordon's career and the impact of his innovations in materials research, while also discussing how the field has evolved since Gordon wrote this enduring example of first-rate scientific communication.
Synopsis
Praise for Princeton's original edition: "I found Gordon's writing style fascinating; his book reads like a novel, and the technical content is superb."--Enoch J. Durbin, Princeton University
Synopsis
This new edition of J. E. Gordon's classic introduction to the properties of materials used in engineering answers some fundamental and fascinating questions about how the material world around us functions. In particular, Gordon focuses on so-called strong materials, such as metals, wood, ceramics, glass, and bone. For each material in question, Gordon explains the unique physical and chemical basis for its inherent structural qualities in irrepressibly fresh and simple terms. He also shows how an in-depth understanding of these materials' intrinsic strengths (and weaknesses) guides our engineering choices, allowing us to build the structures that support our modern society. Philip Ball's new introduction describes Gordon's career and the impact of his innovations in materials research, while also discussing how the field has evolved since Gordon wrote this enduring example of first-rate scientific communication.
Synopsis
Praise for Princeton's original edition: "I found Gordon's writing style fascinating; his book reads like a novel, and the technical content is superb."--Enoch J. Durbin, Princeton University
About the Author
J. E. Gordon (1913-1998) was Professor of Materials Technology Emeritus at the University of Reading and is the author of "Structures, or Why Things Don't Fall Down". Philip Ball is a freelance science writer and a consultant editor for "Nature", and is the author of "Designing the Molecular World" and "Made to Measure" (both Princeton).