Zirconia


Book Description

Chelsey Minnis's formal invention and wild personae represent a progressive yet individualized position in the galaxy of truly contemporary poetry. Zirconia's female speaker is by turns fatigued, charmed, wishful, battered, sly, perverse, and omnipotent. These poems engage a material world not unlike ours yet featuring a phantasmagorically elliptical relationship to the dimension of real action. Her speaker is detached, but alive to the poignancy of detachment, and through the "silver lips of a feverish child" invites connectivity by means of tenderness and brutality. Long pauses, enforced by strings of gemlike punctuation, allow for the reader's digestion of hilarious, frightened, sometimes frightening substance. One is compelled to follow trails of feminine intuition, savagery, ennui, fantasy, and intimacy to their diabolical, fruitful conclusions. Zirconia is accessible, confrontational, hilarious, occasionally shocking, never ever dull, and often extremely moving.




Science and Technology of Zirconia V


Book Description

This book is based on the Fifth International Conference that was held on 16-21 August, 1992 in Melbourne, Australia, in conjunction with AUSTCERAM 92. It demonstrates that the field of Zirconia ceramics remains one of scientific challenge and technical attraction.




Zirconia


Book Description

Zirconia, 3rd Edition, Volume 2 covers the activity of zirconia activities in various international regions. The selection covers the various organizations involved in the manufacturing, production, and distributors of zirconia. The text also covers the institutions that are involved in the research and development of zirconia technology. The book will be of great interest to professionals who are involved in the zirconia industry.




Ceramic and Glass Materials


Book Description

This is a concise, up-to-date book that covers a wide range of important ceramic materials used in modern technology. Chapters provide essential information on the nature of these key ceramic raw materials including their structure, properties, processing methods and applications in engineering and technology. Treatment is provided on materials such as alumina, aluminates, Andalusite, kyanite, and sillimanite. The chapter authors are leading experts in the field of ceramic materials. An ideal text for graduate students and practising engineers in ceramic engineering, metallurgy, and materials science and engineering.




Zirconia - New Advances, Structure, Fabrication and Applications


Book Description

This book is a comprehensive resource for students, researchers, professionals, and enthusiasts eager to understand the science, technology, and applications of zirconia. Its in-depth chapters, authored by experts in the field, provide a holistic view of this extraordinary material. Whether you’re a materials scientist, an engineer, a dentist, or simply intrigued by the wonders of advanced ceramics, Zirconia - New Advances, Structure, Fabrication and Applications will expand your knowledge and inspire your curiosity. Zirconia, a remarkable ceramic material, has taken the world of materials science by storm. In this book, you will explore the diverse facets of zirconia, from its intriguing structure to its innovative applications. Take a journey into the world of zirconia, where innovation knows no bounds. Uncover its secrets, explore its applications, and witness the future of materials science unfold before your eyes.










Investigation of Thermal Shock Resistance of Zirconia with Metal Additions


Book Description

Zirconium oxide or Zirconia has a melting point of about 27000, is resistant to chemical attack by acids and bases, is very stable at high temperatures in oxidizing atmospheres, and is inert when in contact with most metals at high temperatures. In addition, zirconia is relatively inexpensive and abundant. These characteristics of zirconia would make it a very satisfactory material for many high-temperature applications, were it not for the fact that pure zirconia undergoes an allotropic transformation from tetragonal to monoclinic on cooling through a temperature range in the neighborhood of 900 C. This transformation takes place with a volume increase of about 3 percent. During the reverse transformation near 11000 C on heating, zirconia shrinks by about the same amount. The large anisotropic volume changes associated with the transformation cause bodies made from pure zirconia to disintegrate during their manufacture or when in use. In practice, this difficulty is circumvented by adding small amounts of certain Oxides, such as calcia, magnesia, yttria, etc., to zirconia. Depending on the kind and amount of oxide added to the zirconia, the high-temperature crystal structure of the combination is totally or partially retained on cooling, and the allotropic transformation is also totally or partially suppressed. This so-called stabilized zirconia performs satisfactorily in many high-temperature applications, but the addition of stabilizing oxides also introduces some undesirable features, such as an increase in the thermal-expansion coefficient, a lowering of the melting point, and, for some types of stabilized zirconia, a tendency to disintegrate on prolonged thermal cycling. A zirconia-base material combining the high-temperature properties of pure zirconia without the disadvantages associated with the use of stabilizers would be highly desirable.







Electrochemistry of Zirconia Gas Sensors


Book Description

The first book to present a detailed analysis of the electrochemistry, development, modeling, optimization, testing, and technology behind modern zirconia-based sensors, Electrochemistry of Zirconia Gas Sensors explores how to tailor these sensors to meet specific industrial needs. The book addresses a range of different stages of development in zi