By George Phillips
To Cera1l1ics by way of George C. Phillips V AN NOSTRAND REINHOLD ____ big apple Copyright ('> 1991 through Van Nostrand Reinhold Softcover reprint of the hardcover 1 st version 1991 Library of COnRreSS Catalog Card quantity 91.19587 ISBN.13: 978.94.011--6975.2 All rights eserve r d. No a part of this paintings lined through the copyright hereon can be rcproduccd or uscd in any shape or by way of any means-graphic. digital. or meehaniclli. together with photocopying. recording. taping. or details garage and retrieval systems-without written permission of the writer. synthetic within the us of a released via Van Nostrand Reinhold a hundred and fifteen 5th street big apple. big apple 10003 Chapman and Ha ll 2-6 Boundary Row London. SEI SHN. England Thomas Nelson Australia 102 Dodds highway South Melbourne 3205 Victoria. Australia Nelson Canada 1120 Birchmounl highway Scarborough. Ontario M IK 5G4. Canada sixteen 15 14 thirteen 12 II 10 nine eight 7 6 five four three 2 Library or Congress Cataloging-in. book information Phillips. George C .. 1937- A concise inlrodu!;tion to ceramics/by George C. Phillips. p. cm. comprises bibliographical referen!;es and index. ISBN-13: 978-94-011--6975-2 e-ISBN-13: 978-94-011--6973-8 001:10: 1007/978-94-011--6973-8 I. Cerami!;s. L Tille.
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Extra info for A Concise Introduction to Ceramics
Aluminum and silicon) are called cations. These ions, with atomic numbers from 8 to 14, all have the same electronic configuration, but they differ in the number of protons in their nuclei. These differences are illustrated by comparing their ionic radii. Although atoms and ions are not "hard spheres," it is convenient to use the concept of spheres as a measure of the size of ions. Table 8-3 compares ionic radii. A size comparison of silicon, aluminum, and oxygen is shown in Figure 8-4. They all have the same number of electrons in orbit around the 2P ,.
The s-subshell has only one orbit, whereas the p-subshell has three orbits that are along the three dimensional axes; these orbits represent the third quantum number. And, finally, if there are two electrons in the same orbit that must have opposite spins, which can be represented by arrows pointing in opposite directions (it), that represents the fourth quantum number. The atomic number for each atom or element indicates the number of protons and the number of neutrons in the nucleus, as well as the number of electrons in orbit around the nucleus.
As the material starts to cool, it achieves a point of constant temperature for a period of time. During this "isotherm," both a liquid and a solid phase are present. At equilibrium, the material cannot be cooled below this constant temperature until all of the liquid has solidified. Conversely, it cannot be heated above this temperature until all of the solid has melted. A good analogy to this curve is ice and water. When in equilibrium, ice water is always at a constant temperature (O°C). The mixture will not get warmer until the ice is gone or cooler until the liquid has solidified.
A Concise Introduction to Ceramics by George Phillips