GetWiki

{{Short description|Materials resistant to decomposition under high temperatures}}{{About|heat resistance}}File:Torpedo car refractory bricks.JPG|thumb|Refractory bricks in a torpedo car used for hauling molten iron]]In materials science, a refractory (or refractory material) is a material that is resistant to decomposition by heat or chemical attack that retains its strength and rigidity at high temperatures.BOOK, Ailsa Allaby and Michael Allaby, Concise Dictionary of Earth Sciences, 1996, Oxford Paperbacks Oxford University Press, They are inorganic, non-metallic compounds that may be porous or non-porous, and their crystallinity varies widely: they may be crystalline, polycrystalline, amorphous, or composite. They are typically composed of oxides, carbides or nitrides of the following elements: silicon, aluminium, magnesium, calcium, boron, chromium and zirconium.WEB,www.ispatguru.com/refractories-and-classification-of-refractories/, Refractories and Classification of Refractories, IspatGuru, 2020-03-06, Many refractories are ceramics, but some such as graphite are not, and some ceramics such as clay pottery are not considered refractory. Refractories are distinguished from the refractory metals, which are elemental metals and their alloys that have high melting temperatures.Refractories are defined by ASTM C71 as “non-metallic materials having those chemical and physical properties that make them applicable for structures, or as components of systems, that are exposed to environments above {{convert|1000|F|K C}}”.ASTM Volume 15.01 Refractories; Activated Carbon, Advanced Ceramics Refractory materials are used in furnaces, kilns, incinerators, and reactors. Refractories are also used to make crucibles and molds for casting glass and metals. The iron and steel industry and metal casting sectors use approximately 70% of all refractories produced.JOURNAL

Refractory materials

Refractory materials must be chemically and physically stable at high temperatures. Depending on the operating environment, they must be resistant to thermal shock, be chemically inert, and/or have specific ranges of thermal conductivity and of the coefficient of thermal expansion.The oxides of aluminium (alumina), silicon (silica) and magnesium (magnesia) are the most important materials used in the manufacturing of refractories. Another oxide usually found in refractories is the oxide of calcium (lime).BOOK,books.google.com/books?id=QU-Qvud3OvoC&q=alumina%2C+silica+and+magnesia+are+most+important+materials+used+in+the+manufacturing+of+refractories&pg=PA141, Fundamentals of Modern Manufacturing: Materials, Processes, and Systems, Groover, Mikell P., 2010-01-07, John Wiley & Sons, 9780470467008, en, Fire clays are also widely used in the manufacture of refractories.Refractories must be chosen according to the conditions they face. Some applications require special refractory materials.JOURNAL, Sonntag, Kiss, Banhidi, Weber, 2009, New Kiln Furniture Solutions for Technical Ceramics, Ceramic Forum International, 86, 4, 29–34, Zirconia is used when the material must withstand extremely high temperatures.BOOK,books.google.com/books?id=-g_hx8ROlPYC&q=Zirconia+is+used+when+the+material+must+withstand+extremely+high+temperatures&pg=PA35, Zirconium, Roza, Greg, 2009, The Rosen Publishing Group, 9781435850705, en, Silicon carbide and carbon (graphite) are two other refractory materials used in some very severe temperature conditions, but they cannot be used in contact with oxygen, as they would oxidize and burn.Binary compounds such as tungsten carbide or boron nitride can be very refractory. Hafnium carbide is the most refractory binary compound known, with a melting point of 3890 Â°C.BOOK, Hugh O. Pierson, Handbook of chemical vapor deposition (CVD): principles, technology, and applications,books.google.com/books?id=NF3W6zlN9WsC&pg=PA206, 22 April 2011, 1992, William Andrew, 978-0-8155-1300-1, 206–, Hafnium {{Webarchive|url=https://web.archive.org/web/20170811032626periodic.lanl.gov/72.shtml |date=11 August 2017 }}, Los Alamos National Laboratory The ternary compound tantalum hafnium carbide has one of the highest melting points of all known compounds (4215 Â°C).BOOK, McGraw-Hill encyclopedia of science and technology: an international reference work in fifteen volumes including an index,books.google.com/books?id=TjYLAQAAIAAJ, 22 April 2011, 1977, McGraw-Hill, 978-0-07-079590-7, 360, ENCYCLOPEDIA, Hafnium,www.britannica.com/EBchecked/topic/251419/hafnium, Encyclopædia Britannica, Encyclopædia Britannica, Inc., 17 December 2010, Molybdenum disilicide has a high melting point of 2030 °C and often used as a heating element.

Uses

Refractory materials are useful for the following functions:WEB,www.uotechnology.edu.iq/dep-materials/lecture/fourthclass/Refractories01.pdf, Introduction to Refractories, Alaa, Hussein, University of Technology - Iraq,

1. Serving as a thermal barrier between a hot medium and the wall of a containing vessel
2. Withstanding physical stresses and preventing erosion of vessel walls due to the hot medium
3. Protecting against corrosion
4. Providing thermal insulation

Refractories have multiple useful applications. In the metallurgy industry, refractories are used for lining furnaces, kilns, reactors, and other vessels which hold and transport hot media such as metal and slag. Refractories have other high temperature applications such as fired heaters, hydrogen reformers, ammonia primary and secondary reformers, cracking furnaces, utility boilers, catalytic cracking units, air heaters, and sulfur furnaces. They are used for surfacing flame deflectors in rocket launch structures.“Refractory Materials for Flame Deflector Protection System Corrosion Control: Similar Industries and/or Launch Facilities Survey”. NASA, January 2009

Classification of refractory materials

{{More citations needed section|date=August 2023}}Refractories are classified in multiple ways, based on:

1. Chemical composition
2. Method of manufacture
3. Size and shape
4. Fusion temperature
5. Refractoriness
6. Thermal conductivity

Chemical composition

Acidic refractories

Acidic refractories are generally impervious to acidic materials but easily attacked by basic materials, and are thus used with acidic slag in acidic environments. They include substances such as silica, alumina, and fire clay brick refractories. Notable reagents that can attack both alumina and silica are hydrofluoric acid, phosphoric acid, and fluorinated gases (e.g. HF, F2).WEB,accuratus.com/alumox.html, Accuratus, 2013, November 22, 2014, Aluminum Oxide, Al2O3 Ceramic Properties, At high temperatures, acidic refractories may also react with limes and basic oxides.

• Silica refractories are refractories containing more than 93% silicon oxide (SiO2). They are acidic, have high resistance to thermal shock, flux and slag resistance, and high spalling resistance. Silica bricks are often used in the iron and steel industry as furnace materials. An important property of silica brick is its ability to maintain hardness under high loads until its fusion point. Silica refractories are usually cheaper hence easily disposable. New technologies that provide higher strength and more casting duration with less silicon oxide (90%) when mixed with organic resins have been developed.
• Zirconia refractories are refractories primarily composed of zirconium oxide (ZrO2). They are often used for glass furnaces because they have low thermal conductivity, are not easily wetted by molten glass and have low reactivity with molten glass. These refractories are also useful for applications in high temperature construction materials.
• Aluminosilicate refractories mainly consist of alumina (Al2O3) and silica (SiO2). Aluminosilicate refractories can be semiacidic, fireclay composite, or high alumina content composite.{{clarify|date=May 2020}}BOOK, Poluboiarinov, D. N., Vysokoglinozemistye keramicheskie i ogneupornye materialy, 1960, Moscow,

Basic refractories

Basic refractories are used in areas where slags and atmosphere are basic. They are stable to alkaline materials but can react to acids, which is important e. g. when removing phosphorus from pig iron (see Gilchrist–Thomas process). The main raw materials belong to the RO group, of which magnesia (MgO) is a common example. Other examples include dolomite and chrome-magnesia. For the first half of the twentieth century, the steel making process used artificial periclase (roasted magnesite) as a furnace lining material.

• Magnesite refractories are composed of ≥ 85% magnesium oxide (MgO). They have high slag resistance to lime and iron-rich slags, strong abrasion and corrosion resistance, and high refractoriness under load, and are typically used in metallurgical furnaces.WEB,www.termorefractories.com/products/refractory-bricks-blocks/magnesite-refractories.html, Magnesite Refractories, www.termorefractories.com, 2020-03-06,
• Dolomite refractories mainly consist of calcium magnesium carbonate. Typically, dolomite refractories are used in converter and refining furnaces.WEB,www.ruizhirefractory.com/en/new/dolomite-Brick-and-Magnesite-Dolomite-Brick.html, Dolomite brick and magnesia dolomite brick, www.ruizhirefractory.com, 2020-03-06,
• Magnesia-chrome refractories mainly consist of magnesium oxide (MgO) and chromium oxide (Cr2O3). These refractories have high refractoriness and have a high tolerance for corrosive environments.

Neutral refractories

These are used in areas where slags and atmosphere are either acidic or basic and are chemically stable to both acids and bases. The main raw materials belong to, but are not confined to, the R2O3 group. Common examples of these materials are alumina (Al2O3), chromia (Cr2O3) and carbon.

• Carbon graphite refractories mainly consist of carbon. These refractories are often used in highly reducing environments, and their properties of high refractoriness allow them excellent thermal stability and resistance to slags.
• Chromite refractories are composed of sintered magnesia and chromia. They have constant volume at high temperatures, high refractoriness, and high resistance to slags.WEB,termorefractories.com/products/refractory-bricks-blocks/chromite-refractories.html, Chromite Refractories, termorefractories.com, 2020-03-06,
• Alumina refractories are composed of ≥ 50% alumina (Al2O3).

Method of manufacture

1. Dry press process
2. Fused cast
3. Hand molded
4. Formed (normal, fired or chemically bonded)
5. Un-formed (monolithic-plastic, ramming and gunning mass, castables, mortars, dry vibrating cements.)
6. Un-formed dry refractories.

Size and shape

Refractory objects are manufactured in standard shapes and special shapes. Standard shapes have dimensions that conform to conventions used by refractory manufacturers and are generally applicable to kilns or furnaces of the same types. Standard shapes are usually bricks that have a standard dimension of {{cvt|9|x|4.5|x|2.5|in|mm}} and this dimension is called a “one brick equivalent”. “Brick equivalents” are used in estimating how many refractory bricks it takes to make an installation into an industrial furnace. There are ranges of standard shapes of different sizes manufactured to produce walls, roofs, arches, tubes and circular apertures etc. Special shapes are specifically made for specific locations within furnaces and for particular kilns or furnaces. Special shapes are usually less dense and therefore less hard wearing than standard shapes.

Unshaped (monolithic)

These are without prescribed form and are only given shape upon application. These types are known as monolithic refractories. Common examples include plastic masses, ramming masses, castables, gunning masses, fettling mix, and mortars.Dry vibration linings often used in induction furnace linings are also monolithic, and sold and transported as a dry powder, usually with a magnesia/alumina composition with additions of other chemicals for altering specific properties. They are also finding more applications in blast furnace linings, although this use is still rare.

Fusion temperature

Refractory materials are classified into three types based on fusion temperature (melting point).

• Normal refractories have a fusion temperature of 1580{{ndash}}1780 Â°C (e.g. fire clay)
• High refractories have a fusion temperature of 1780{{ndash}}2000 Â°C (e.g. chromite)
• Super refractories have a fusion temperature of > 2000 Â°C (e.g. zirconia)

Refractoriness

Refractoriness is the property of a refractory’s multiphase to reach a specific softening degree at high temperature without load, and is measured with a pyrometric cone equivalent (PCE) test. Refractories are classified as:

• Super duty: PCE value of 33–38
• High duty: PCE value of 30–33
• Intermediate duty: PCE value of 28–30
• Low duty: PCE value of 19–28

Thermal conductivity

Refractories may be classified by thermal conductivity as either conducting, nonconducting, or insulating. Examples of conducting refractories are silicon carbide (SiC) and zirconium carbide (ZrC), whereas examples of nonconducting refractories are silica and alumina. Insulating refractories include calcium silicate materials, kaolin, and zirconia.Insulating refractories are used to reduce the rate of heat loss through furnace walls. These refractories have low thermal conductivity due to a high degree of porosity, with a desired porous structure of small, uniform pores evenly distributed throughout the refractory brick in order to minimize thermal conductivity. Insulating refractories can be further classified into four types:

1. Heat-resistant insulating materials with application temperatures ≤ 1100 Â°C
2. Refractory insulating materials with application temperatures ≤ 1400 Â°C
3. High refractory insulating materials with application temperatures ≤ 1700 Â°C
4. Ultra-high refractory insulating materials with application temperatures ≤ 2000 Â°C

See also

• Fire brick
• Masonry oven

References

{{reflist}}

External links

{{Commons category|Refractory materials|position=left}}{{Use dmy dates|date=November 2018}}{{Authority control}}