Did you mean: ceramic (material – in art), ceramics, ceramics, Ceramic art, Ceramic (performed by 36 Crazyfists)
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ce·ram·ic (sə-răm'ĭk)  |
[From Greek keramikos, of pottery, from keramos, potter's clay.]
ceramic ce·ram'ic adj.| Sci-Tech Encyclopedia: Ceramics |
Inorganic, nonmetallic materials processed or consolidated at high temperature. This definition includes a wide range of materials known as advanced ceramics and is much broader than the common dictionary definition, which includes only pottery, tile, porcelain, and so forth. The classes of materials generally considered to be ceramics are oxides, nitrides, borides, carbides, silicides, and sulfides. Intermetallic compounds such as aluminides and beryllides are also considered ceramics, as are phosphides, antimonides, and arsenides. See also Intermetallic compounds.
Ceramic materials can be subdivided into traditional and advanced ceramics. Traditional ceramics include clay-base materials such as brick, tile, sanitary ware, dinnerware, clay pipe, and electrical porcelain. Common-usage glass, cement, abrasives, and refractories are also important classes of traditional ceramics.
Advanced materials technology is often cited as an enabling technology, enabling engineers to design and build advanced systems for applications in fields such as aerospace, automotive, and electronics. Advanced ceramics are tailored to have premium properties through application of advanced materials science and technology to control composition and internal structure. Examples of advanced ceramic materials are silicon nitride, silicon carbide, toughened zirconia, zirconia-toughened alumina, aluminum nitride, lead magnesium niobate, lead lanthanum zirconate titanate, silicon-carbide-whisker-reinforced alumina, carbon-fiber-reinforced glass ceramic, silicon-carbide-fiber-reinforced silicon carbide, and high-temperature superconductors. Advanced ceramics can be viewed as a class of the broader field of advanced materials, which can be divided into ceramics, metals, polymers, composites, and electronic materials. There is considerable overlap among these classes of materials. See also Cermet; Composite material; Glass; Polymer.
The general advantages of advanced structural ceramics over metals and polymers are high-temperature strength, wear resistance, and chemical stability, in addition to the enabling functions the ceramics can perform. Typical properties for some engineering ceramics are shown in the table.
| Property | Aluminum oxide | Silicon nitride | Silicon carbide | Partially stabilized zirconia |
|---|---|---|---|---|
Density, g/cm3 | 3.9 | 3.2 | 3.1 | 5.7 |
Flexure strength, MPa | 350 | 850 | 450 | 790 |
Modulus of elasticity, GPa | 407 | 310 | 400 | 205 |
Fracture toughness (KIC), MPa · m1/2 | 5 | 5 | 4 | 12 |
Thermal conductivity, W/mK | 34 | 33 | 110 | 3 |
Mean coefficient of thermal expansion (× 10−6/°C) | 7.7 | 2.6 | 4.4 | 10.2 |
Advanced ceramics are used in systems such as automotive engines, aerospace hardware, and electronics. The primary disadvantages of most advanced ceramics are in the areas of reliability, reproducibility, and cost. Major advances in reliability are being made through development of tougher materials such as partially stabilized zirconia and ceramic whiskers; and reinforced ceramics such as silicon-carbide-whisker-reinforced alumina used for cutting tools, and silicon-carbide-fiber-reinforced silicon carbide for high-temperature engine applications.
| Dental Dictionary: ceramics |
The art of making dental restorations or parts of restorations from fused porcelain.
| Britannica Concise Encyclopedia: ceramics |
For more information on ceramics, visit Britannica.com.
| Architecture: ceramic |
Any of a class of products, made of clay or a similar material, which are subjected to a high temperature during manufacture or use, as porcelain, stoneware, or terra-cotta; typically a ceramic is a metallic oxide, boride, carbide, or nitride, or a mixture or compound of such materials; hard, brittle, and an electrical insulator.
| Archaeology Dictionary: ceramic |
The state that clay achieves when converted into pottery by firing to a temperature of not less than 500°C. The term ‘ceramics’ is often used to refer to assemblages of pottery.
| Columbia Encyclopedia: ceramics |
| Essay: The first ceramics |
Ceramics are produced by heating natural earth until it changes form (without melting -- glasses are formed by earth heated until it melts and then cools). Ceramics are different from merely dried earth or clay, which soften when rewet. Cements and plasters, although similar after hardening in some properties to ceramics, are produced by powdering a mineral and bonding the grains together with water. The high heat at which ceramics are produced drives off water chemically bound to the earth as well as any water that has soaked into it. The result of such heating, depending in part on the type of clay or earth, can be terra cotta, stoneware, china, porcelain, brick, or tile. True ceramics appear rarely in nature, but are sometimes the result of lightning strikes and forest fires. From the control of fire by Homo erectus to the accidental production of ceramics is a very short step. Apparently, the deliberate production of ceramics had to wait until the more inventive Homo sapiens arrived on the scene.
At one time archaeologists believed that deliberate ceramics were a fairly recent discovery, 10,000 years old at the most. A popular theory was that basketry was invented first, but baskets do not hold liquids well. According to this theory, early people solved this problem by lining baskets with clay, which is impermeable. Sometimes baskets so lined got burned and the clay lining was left behind as a pot. Eventually, people found that they did not have to start with the basket. This theory is reminiscent of Charles Lamb's famous essay on the discovery of roast pig via burning down the house.
Ceramics may or may not precede basketry (which is, of course, biodegradable and easily lost from the archaeological record), but they certainly date much before 10,000 bce. Furthermore, ceramics were being deliberately made well before the first known ceramic pot. About 28,000 bce, in the region now known as the Czech Republic, people built kilns and produced small ceramic figures and beads. Ovens that may have been kilns as well go back another 14,000 years.
Practical ceramics -- pottery and brick -- start with the Neolithic Revolution. The first bricks, however, were not ceramics; they were adobe, clay or mud hardened by drying but without the chemically bound water driven off by heat. When kiln-dried bricks became available, the cost of making them resulted in their being reserved for special monumental buildings; the common people continued to build houses with sun-dried brick.
Pottery was shaped by hand during the Neolithic. Sometimes a large pot would be built and fired in sections that were then glued together with clay and fired again. The invention of the potter's wheel near the start of civilization was a great step, leading not only to better pottery but also to the general principle of the wheel for use in transportation and machinery.
| Word Tutor: ceramic |
The beautiful ceramic bowl was knocked off the table.
| Wikipedia: Ceramic |
A ceramic is an inorganic, non-metallic solid prepared by the action of heat and subsequent cooling.[1] Ceramic materials may have a crystalline or partly crystalline structure, or may be amorphous (e.g., a glass). Because most common ceramics are crystalline, the definition of ceramic is often restricted to inorganic crystalline materials, as opposed to the non-crystalline glasses.
The earliest ceramics were pottery objects made from clay, either by itself or mixed with other materials. Ceramics now includes domestic, industrial and building products and art objects. In the 20th century new ceramic materials were developed for use in advanced ceramic engineering, for example, in semiconductors.
The word ceramic comes from the Greek word κεραμικός (keramikos) meaning pottery, which is said to derive from the Indo-European word ker, meaning heat.[2][3] Ceramic may be used as an adjective describing a material, product or process; or as a singular noun, or, more commonly, as a plural noun, ceramics.[4]
Contents |
For convenience ceramic products are usually divided into four sectors, and these are shown below with some examples:
Technical ceramics can also be classified into three distinct material categories:
Each one of these classes can develop unique material properties.
A ceramic material is often understood as restricted to inorganic crystalline oxide material. It is solid and inert. Ceramic materials are brittle, hard, strong in compression, weak in shearing and tension. They withstand chemical erosion that occurs in other materials subjected to acidic or caustic environment. Ceramics generally can withstand very high temperatures such as temperatures that range from 1,000°C to 1,600°C (1,800°F to 3,000°F). Exceptions include inorganic materials that do not include oxygen such as silicon carbide or silicon nitride. A glass is often not understood as a ceramic because of its amorphous (non-crystalline) character. However, glass making involves several steps of the ceramic process and its mechanical properties are similar to ceramic materials.
Traditional ceramic raw materials include clay minerals such as kaolinite, whereas more recent materials include aluminium oxide, more commonly known as alumina. The modern ceramic materials, which are classified as advanced ceramics, include silicon carbide and tungsten carbide. Both are valued for their abrasion resistance, and hence find use in applications such as the wear plates of crushing equipment in mining operations. Advanced ceramics are also used in the medicine, electrical and electronics industries.
Crystalline ceramic materials are not amenable to a great range of processing. Methods for dealing with them tend to fall into one of two categories - either make the ceramic in the desired shape, by reaction in situ, or by "forming" powders into the desired shape, and then sintering to form a solid body. Ceramic forming techniques include shaping by hand (sometimes including a rotation process called "throwing"), slip casting, tape casting (used for making very thin ceramic capacitors, etc.), injection moulding, dry pressing, and other variations. (See also Ceramic forming techniques. Details of these processes are described in the two books listed below.) A few methods use a hybrid between the two approaches.
Non-crystalline ceramics, being glasses, tend to be formed from melts. The glass is shaped when either fully molten, by casting, or when in a state of toffee-like viscosity, by methods such as blowing to a mold. If later heat-treatments cause this glass to become partly crystalline, the resulting material is known as a glass-ceramic.
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| Translations: Ceramic |
Dansk (Danish)
adj. - keramisk
n. - keramik
Nederlands (Dutch)
(ook mv) keramiek, keramisch
Français (French)
adj. - en vitro-céramique, de la céramique
n. - céramique
Deutsch (German)
n. - Keramik, Töpferware
adj. - keramisch, Keramik-
Ελληνική (Greek)
n. - είδος κεραμικής
adj. - κεραμικός, κεραμευτικός
Italiano (Italian)
di ceramica, ceramico
Português (Portuguese)
n. - cerâmica (f)
adj. - cerâmico
Русский (Russian)
керамический
Español (Spanish)
adj. - cerámico, de cerámica
n. - cerámico
Svenska (Swedish)
n. - keramik
adj. - keramisk
中文(简体)(Chinese (Simplified))
陶器的, 制陶艺术的, 陶瓷制品
中文(繁體)(Chinese (Traditional))
adj. - 陶器的, 制陶藝術的
n. - 陶瓷製品
한국어 (Korean)
adj. - 질그릇의, 요업의
n. - 도자기, 요업제품
日本語 (Japanese)
adj. - 陶器の, 製陶の
العربيه (Arabic)
(الاسم) خزف, فخار, فن صناعه الخزف (صفه) خزفي, فخاري
עברית (Hebrew)
adj. - של קדרות, עשוי חימר ומוקשה ע"י אש
n. - חומר (בעיקר חימר) לעשיית מוצרי קדרות, מוצר קדרות
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Did you mean: ceramic (material – in art), ceramics, ceramics, Ceramic art, Ceramic (performed by 36 Crazyfists)
 | keramics |
| bat printing |
| long clay (materials) |
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 | Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved. Read more |
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| Sci-Tech Encyclopedia. McGraw-Hill Encyclopedia of Science and Technology. Copyright © 2005 by The McGraw-Hill Companies, Inc. All rights reserved. Read more |
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| Dental Dictionary. Mosby's Dental Dictionary. Copyright © 2004 by Elsevier, Inc. All rights reserved. Read more |
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| Britannica Concise Encyclopedia. Britannica Concise Encyclopedia. © 2006 Encyclopædia Britannica, Inc. All rights reserved. Read more |
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| Architecture. McGraw-Hill Dictionary of Architecture and Construction. Copyright © 2003 by McGraw-Hill Companies, Inc. All rights reserved. Read more |
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| Archaeology Dictionary. The Concise Oxford Dictionary of Archaeology. Copyright © 2002, 2003 by Oxford University Press. All rights reserved. Read more |
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| Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/ Read more |
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| Essay. History of Science and Technology, edited by Bryan Bunch and Alexander Hellemans. Copyright © 2004 by Houghton Mifflin Company. Published by Houghton Mifflin Company. All rights reserved. Read more |
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