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Silicon borides (also known as boron silicides) are lightweight ceramic compounds formed between silicon and boron. Several stoichiometric silicon boride
Silicon_boride
Class of chemical compounds
A boride is a compound between boron and a less electronegative element, for example silicon boride (SiB3 and SiB6). The borides are a large group of compounds
Boride
Wide-bandgap semiconductor and abrasion-resistant ceramic
Silicon carbide (SiC), also known as carborundum (/ˌkɑːrbəˈrʌndəm/), is a hard chemical compound of silicon and carbon. A wide bandgap semiconductor,
Silicon_carbide
Chemical element with atomic number 14 (Si)
zirconium dioxide or group 4, 5, and 6 borides. Tetrahedral coordination is a major structural motif in silicon chemistry just as it is for carbon chemistry
Silicon
particularly compared to the boride carbides. Most known compounds are rich in boron, but a few are rich in silicon. The boron and silicon atoms do not appear
Borosilicide
Chemical compound
Aluminium magnesium boride or Al3Mg3B56, colloquially known as BAM, is a chemical compound of aluminium, magnesium and boron. Whereas its nominal formula
Aluminium_magnesium_boride
German inorganic chemist (1876–1946)
building blocks for researchers. With Henri Moissan, Stock discovered silicon boride. In 1921, Stock first prepared metallic beryllium by electrolyzing a
Alfred_Stock
Chemical compound
1000°C (B6O) Highest boride elastic modulus Highest boride fracture toughness Highest boride compressive strength 3rd highest boride melting point (3230
Titanium_diboride
H2SiF6 Silicon boride – SiB3 Silicon carbide (carborundum) – SiC Silicon dioxide – SiO2 Silicon monoxide – SiO Silicon nitride – Si3N4 Silicon tetrabromide
List_of_inorganic_compounds
Spaceplane component of the Space Shuttle
absorbed and redirected heat back out into the air, and covered in silicon borides and borosilicate glass, with blacker tiles covering the lower surface
Space_Shuttle_orbiter
Material with Vickers hardness exceeding 40 gigapascals
the B–C–N system to quaternary compounds with silicon included. Unlike carbon-based systems, metal borides can be easily synthesized in large quantities
Superhard_material
75926–26–0 SiB4 silicon boride 12007–81–7 SiBr4 silicon bromide 7789–66–4 SiC silicon carbide 409–21–2 SiCl4 silicon chloride 10026–04–7 SiF4 silicon fluoride
List of CAS numbers by chemical compound
List_of_CAS_numbers_by_chemical_compound
Type of electrode
Cerium boride cathodes show lower evaporation rate at 1700 K than lanthanum boride, but it becomes equal at 1850 K and higher. Cerium boride cathodes
Hot_cathode
Any binary chemical compound containing just silicon and another chemical element
of epitaxial growth on a silicon substrate. In group 13 boron (a metalloid) forms several binary crystalline silicon boride compounds: SiB3, SiB6, SiBn
Binary_compounds_of_silicon
Chemical compounds with at least one silicon atom
similar to the borides than the carbides, in keeping with the diagonal relationship between boron and silicon, although the larger size of silicon than boron
Silicon_compounds
Chemical element with atomic number 5 (B)
purpose. These borides are an alternative to diamond coated tools, and their surfaces have similar properties to those of the bulk boride. For example,
Boron
Chemical compound
Boron arsenide (or Arsenic boride) is a chemical compound involving boron and arsenic, usually with a chemical formula BAs. Other boron arsenide compounds
Boron_arsenide
Chemical compound
11.2 g/cm3. Hafnium diboride is often combined with carbon, boron, silicon, silicon carbide, and/or nickel to improve the consolidation of the hafnium
Hafnium_diboride
Type of refractory ceramics
temperature without cracking or breaking. Chemically, they are usually borides, carbides, nitrides, and oxides of early transition metals. UHTCs are used
Ultra-high temperature ceramic
Ultra-high_temperature_ceramic
oxide and boron, in vacuum, yields a powder containing several samarium boride phases, and their volume ratio can be controlled through the mixing proportion
Samarium_compounds
Boron chemical complexes
structural units of most allotropes of boron and boron-rich rare-earth borides. In such borides, metal atoms donate electrons to the boron polyhedra, and thus
Crystal structure of boron-rich metal borides
Crystal_structure_of_boron-rich_metal_borides
Chemical synthesis process
Graphite", published 1902-10-14 Weimer, A. W. (1997). Carbide, Nitride and Boride Materials Synthesis and Processing. London: Chapman & Hall. pp. 115–122
Acheson_process
Chemical compound
to metal borides". Chemistry of Materials. 5 (11): 1659–1668. doi:10.1021/cm00035a013. Randich, E. (1979). "Chemical vapor deposited borides of the form
Zirconium_diboride
Chemical compound that combines silicon and a more electropositive element
structurally closer to borides than to carbides. Because of size differences however silicides are not isostructural with borides and carbides. Bonds in
Silicide
Chemical compound
Diborane has been investigated as a precursor to metal boride films and for the p-doping of silicon semiconductors. Diborane is a pyrophoric gas. Commercially
Diborane
Chemical element with metallic and nonmetallic properties
motif can be seen, as are deltahedral variants or fragments, in metal borides and hydride derivatives, and in some halides. The bonding in boron has
Metalloid
Chemical compound
magnesium or beryllium borides, with smaller quantities from aluminum, manganese, and cerium borides. Hydrolysis of magnesium boride, hydrogenation of boron
Tetraborane
Laboratory device for preparing gases
magnesium stannide Boranes from borides (e.g. tetraborane from magnesium boride, aluminium boride, or beryllium boride and an acid) Hydrogen fluoride can
Kipp's_apparatus
Form of physical vapor deposition
g/(cm2·s). Refractory carbides like titanium carbide and borides like titanium boride and zirconium boride can evaporate without undergoing decomposition in
Electron-beam physical vapor deposition
Electron-beam_physical_vapor_deposition
Chemical compound
inhibition of chemical reaction can be achieved by coating it with e.g. titanium boride.[citation needed] Aluminium carbide particles finely dispersed in aluminium
Aluminium_carbide
Hard, dense and stiff chemical compound
Related compounds Other anions Tungsten boride Tungsten nitride Other cations Molybdenum carbide Titanium carbide Silicon carbide Except where otherwise noted
Tungsten_carbide
American chemist (1856–1931)
Dictionary, ISBN 0-550-18022-2, page 6 Weimer, A.W. (1997). Carbide, Nitride and Boride Materials Synthesis and Processing. London: Chapman & Hall. pp. 115–122
Edward_Goodrich_Acheson
Composite material consisting of fibers or particles in a metallic matrix
prevent this reaction, the carbon fibers are coated with nickel or titanium boride. The matrix is the monolithic material into which the reinforcement is embedded
Metal_matrix_composite
Chemical element with atomic number 62 (Sm)
oxide and boron, in a vacuum, yields a powder containing several samarium boride phases; the ratio between these phases can be controlled through the mixing
Samarium
Inorganic compound group
atoms. In this respect boron carbide is similar to the boron rich borides. Both silicon carbide (also known as carborundum) and boron carbide are very hard
Carbide
Inorganic, nonmetallic solid prepared by the action of heat
categories: Oxides: alumina, beryllia, ceria, zirconia Non-oxides: carbide, boride, nitride, silicide Composite materials: particulate reinforced, fiber reinforced
Ceramic
YRS, is a heavy fermion solid state compound of ytterbium, rhodium and silicon. It becomes superconducting when cooled to 2 mK. Just above this temperature
Ytterbium_compounds
Elements with atomic numbers 57-70
borides. The "higher" borides (LnBx where x > 12) are insulators/semiconductors whereas the lower borides are typically conducting. The lower borides
Lanthanide
Metal-joining technique
diffusion brazing, and lets the joint be used above the brazing temperature. Borides and phosphides form brittle phases. Amorphous preforms can be made by rapid
Brazing
Refractory compound of boron and nitrogen with formula BN
composite ceramics with titanium boride-boron nitride, titanium boride-aluminium nitride-boron nitride, and silicon carbide-boron nitride composition
Boron_nitride
over 2000 °C has been growing. Recently carbon fiber reinforced zirconium boride-based composites obtained by powder slurry impregnation (SI) and sintering
Ultra-high temperature ceramic matrix composite
Ultra-high_temperature_ceramic_matrix_composite
Composite formed from the mixture of ceramic and metallic materials
undergo plastic deformation. The metal is used as a binder for an oxide, boride, or carbide. Generally, the metallic elements used are nickel, molybdenum
Cermet
British-designed composite tank armour
armour include boron carbide, silicon carbide, aluminium oxide (sapphire or "alumina"), aluminium nitride, titanium boride and Syndite, a synthetic diamond
Chobham_armour
State of matter
910 °F). Exceptions include non-oxide inorganic materials, such as nitrides, borides and carbides. Traditional ceramic raw materials include clay minerals such
Solid
Usually non-metallic particle present in liquid aluminum alloy
They come from flux treatments added to the melt for cleaning. Titanium boride (TiB2) is intentionally added to the melt for grain refinement to improve
Aluminium_alloy_inclusions
Chemical-induced nickel coating of a surface
The coatings were claimed to be "an intimate dispersion of hard trinickel boride (Ni3B) or nickel phosphide (Ni3P) in a soft matrix of nickel and thallium"
Electroless nickel-phosphorus plating
Electroless_nickel-phosphorus_plating
Class of chemical compounds
compounds, as silicon could be considered as a semimetal. Related compounds include the germanide carbides, phosphide silicides, boride carbides and nitride
Silicide_carbide
System of detailed crystal structure classification
structure B26 CuO C2/c Copper(II) oxide/Tenorite structure B27 FeB Pnma Iron boride structure B28 → B20 B29 → B16 SnS (incorrectly) Pnma Tin(II) sulfide structure
Strukturbericht_designation
Chemical compound
covalent bonds in which the electrons are shared almost equally. Ruthenium boride Network covalent bonding Superhard material Gaidar', L. M.; Zhilkin, V.
Rhenium_diboride
Device used to regulate the power of a nuclear reactor
elements can be used, such as samarium with boron-like europium and samarium boride, which is already used in the colour industry. Less absorptive compounds
Control_rod
Science and technology of creating objects from inorganic, non-metallic materials
classified as follows: Oxides: silica, alumina, zirconia Non-oxides: carbides, borides, nitrides, silicides Composites: particulate or whisker reinforced matrices
Ceramic_engineering
Coating that prevents sticking
deglazing them—dissolving them in liquid. Cooking spray Aluminium magnesium boride Forever chemicals How to Season a Wok- Serious Eats "How to Turn a Stainless
Non-stick_surface
Chemical compound
of tartaric acid. Nickel aluminide Urushibara nickel Rieke nickel Nickel boride catalyst Raney cobalt, a similar cobalt/aluminum alloy catalyst which is
Raney_nickel
Chemical element with atomic number 60 (Nd)
kilogram (2.2 pounds) of neodymium per vehicle. Permanent neodymium iron boride (Nd2Fe14B) magnets are often made with heavy rare earth elements like dysprosium
Neodymium
French chemist and pharmacist (1852–1907)
more common form of carbon. He also used the furnace to synthesize the borides and carbides of numerous elements. Calcium carbide was a noticeable accomplishment
Henri_Moissan
Type of alloying which improves strength of pure metals
cobalt in the matrix and is also precipitation hardened by carbide and boride precipitates at the grain boundaries. The key impacting factor for these
Solid_solution_strengthening
lattice (space group I41/amd), it is isomorphic with PuSi2 and ThSi2. Borides of americium include AmB4 and AmB6. The tetraboride can be obtained by
Americium_compounds
Group of chemical elements
mostly sulfur, although some do contain selenium instead. One such chalcogen boride consists of two molecules of dimethyl sulfide attached to a boron-hydrogen
Chalcogen
Molecule with a hydrogen bound to a more electropositive element or group
anion compounds exist that contain hydride with other anions. These include boride hydrides, carbohydrides, hydridonitrides, oxyhydrides and others. Protide
Hydride
Chemical element with atomic number 57 (La)
lighter flints, contains 25% to 45% lanthanum. Lanthanum oxide and the boride are used in electronic vacuum tubes as hot cathode materials with strong
Lanthanum
American materials scientist
by vapor growth, including Si and SiGe nanowires, group-III nitrides and boride-based superconductors." In 2015, she was named a Fellow of the Materials
Joan_Redwing
Thermally induced flow of charge carriers from a surface
coated metal filament, or a separate structure of metal or carbides or borides of transition metals. Vacuum emission from metals tends to become significant
Thermionic_emission
Chemical element with atomic number 95 (Am)
lattice (space group I41/amd), it is isomorphic with PuSi2 and ThSi2. Borides of americium include AmB4 and AmB6. The tetraboride can be obtained by
Americium
Chemical compound
excess. An early synthesis involved the reaction of iron and manganese borides with hydrogen sulfide at temperatures of 300 °C. The conversion is shown
Boron_sulfide
Chemical element with atomic number 49 (In)
agents such as halogens to give indium(III) compounds. It does not form a boride, silicide, or carbide. Indium is rather basic in aqueous solution, showing
Indium
French company
all shapes (powders to targets) and all forms (metals, oxides, alloys, borides, nitrides, sulfides ...). - Thin films (i.e. layers below one micron) deposited
Neyco
Crystallographic system where the unit cell is in the shape of a cube
Lkhamsuren (2011). "Synthesis of Binary Transition Metal Nitrides, Carbides and Borides from the Elements in the Laser-Heated Diamond Anvil Cell and Their Structure-Property
Cubic_crystal_system
Force resisting sliding motion
Sinatora, Amilton (2012-08-30). "Ultra-low friction coefficient in alumina–silicon nitride pair lubricated with water". Wear. 296 (1–2): 656–659. doi:10.1016/j
Friction
Chemical element with atomic number 70 (Yb)
Boron Carbon Nitrogen Oxygen Fluorine Neon Sodium Magnesium Aluminium Silicon Phosphorus Sulfur Chlorine Argon Potassium Calcium Scandium Titanium Vanadium
Ytterbium
Alloys with high proportions of several metals
-Q.; Sun, S.-K.; You, Y.; Plucknett, K.; Lin, H.-T. Dense High-Entropy Boride Ceramics with Ultra-High Hardness. Scripta Materialia 2019, 164, 135–139
High-entropy_alloy
Chemical compounds containing the element plutonium
metals such as tantalum and tungsten along with the more stable oxides, borides, carbides, nitrides and silicides can tolerate this. Melting in an electric
Plutonium_compounds
Group of highly reactive chemical elements
a special case, being the only nonmetal in group 13. The alkali metal borides tend to be boron-rich, involving appreciable boron–boron bonding involving
Alkali_metal
Chemical element with atomic number 21 (Sc)
observed spectroscopically at high temperatures in the gas phase. Scandium borides and carbides are non-stoichiometric, as is typical for neighboring elements
Scandium
Chemical element with atomic number 94 (Pu)
and four oxidation states. It reacts with carbon, halogens, nitrogen, silicon and hydrogen. When exposed to moist air, it forms oxides and hydrides that
Plutonium
Short story series by Stanley G. Weinbaum
possibly produced by a Titanian life form; made of a thermosensitive chromium boride which changes color in accordance with small temperature variations. (Flight
Planetary_series
Production of optical glass without grinding and polishing
into 5 groups including: (1) single layer carbides, nitrides, oxides and borides such as TiN, BN, TiAlN, NiAlN, TiBC, TiBCN, NiCrSiB and Al2O3, (2) nitrides
Precision_glass_moulding
Chemical element with atomic number 59 (Pr)
"Lanthanides with Unusually Low Oxidation States in the PrB3– and PrB4– Boride Clusters". Inorganic Chemistry. 58 (1): 411–418. doi:10.1021/acs.inorgchem
Praseodymium
Hypothetical charge of an atom if all its bonds to different atoms were fully ionic
"Lanthanides with Unusually Low Oxidation States in the PrB3– and PrB4– Boride Clusters". Inorganic Chemistry. 58 (1): 411–418. doi:10.1021/acs.inorgchem
Oxidation_state
Chemical element with atomic number 4 (Be)
phosphide, Be3P2 has a similar structure to Be3N2. A number of beryllium borides are known, such as Be5B, Be4B, Be2B, BeB2, BeB6 and BeB12. Beryllium carbide
Beryllium
Chemical element with atomic number 90 (Th)
an insoluble salt, K2[ThF6] (potassium hexafluorothorate(IV)). Thorium borides, carbides, silicides, and nitrides are refractory materials, like those
Thorium
orthophosphate 13517–08–3 Ba3(VO4)2 barium orthovandate 39416–30–3 BeB2 beryllium boride 12228–40–9 Be(BH4)2 beryllium borohydride 17440–85–6 BeBr2 beryllium bromide
Glossary_of_chemical_formulae
German-American physicist (1929–2024)
K.; Pohl, R. O.; Slack, G. A. (1989). "Thermal properties of boron and borides". Physical Review B. 40 (5): 3254–3260. Bibcode:1989PhRvB..40.3254C. doi:10
Robert_Otto_Pohl
Chemical compound
molecules are predicted to be linear. Boron oxyfluoride could be used in boriding steel. By using a gas, sticking solids onto the steel is avoided. Also
Boron_monofluoride_monoxide
Solid material with nano-scale structure
most of the volume is often from the group of oxides, such as nitrides, borides, silicides, whereas the second component is often a metal. Ideally both
Nanocomposite
SILICON BORIDE
SILICON BORIDE
Surname or Lastname
English
English : patronymic from a pet form of Sill.
Boy/Male
Latin
Of the forest.
Surname or Lastname
English
English : patronymic from Simon.
Male
Greek
Greek name derived either from the word ailinon, a ritual "cry of grief," or, from linon, LINOS means "flax, linen." In the bible, this is the name of one of Paul's Christian associates. In mythology, this is the name of a musician, the personification of lamentation. He was killed by Apollo who was his rival in music. Another version of the story says he was killed by Hercules.Â
Girl/Female
Greek
From Helicon.
Girl/Female
Greek
From Helicon.
SILICON BORIDE
SILICON BORIDE
Boy/Male
Gujarati, Hindu, Indian, Kannada
Own
Biblical
the grace or mercy of the Lord,Jehovah's gift: the same name as Johanan, a contraction of Jehohanan
Boy/Male
Indian
Unique, The first one. no second, The Sun or one which has no end
Boy/Male
Indian
Autum, Bright
Girl/Female
Hindu, Indian, Tamil
First Rays of the Morning Sun
Boy/Male
Tamil
Lord Vishnu
Boy/Male
Indian
Land; Earth
Girl/Female
Indian, Tamil
Goddess Amman
Boy/Male
American, Anglo, Australian, British, Christian, English
Free Man
Boy/Male
Muslim
One who indicates by signs
SILICON BORIDE
SILICON BORIDE
SILICON BORIDE
SILICON BORIDE
SILICON BORIDE
a.
Having a valence greater than one, as silicon.
a.
Combined or impregnated with silicon.
n.
A silicle.
a.
Pertaining to, derived from, or resembling, silica; specifically, designating compounds of silicon; as, silicic acid.
n.
A binary compound of silicon, or one regarded as binary.
a.
Combined or impregnated with silicon or silica, especially the latter; as, silicified wood.
n.
Silicon dioxide, SiO/. It constitutes ordinary quartz (also opal and tridymite), and is artifically prepared as a very fine, white, tasteless, inodorous powder.
n.
A glucoside found in the bark and leaves of several species of willow (Salix) and poplar, and extracted as a bitter white crystalline substance.
n.
A silicate formed with the lowest proportion of silicic acid, or having but one atom of silicon in the molecule.
n.
Thae act or process of combining or impregnating with silicon or silica; the state of being so combined or impregnated; as, the silicification of wood.
a.
Producing silica; united with silica.
n.
Silica, SiO2 as found in nature, constituting quarz, and most sands and sandstones. See Silica, and Silicic.
n.
Chopped meat, bread, etc., used to stuff legs of veal or other joints; stuffing; farce.
n.
See Silicon.
v. t.
To convert into, or to impregnate with, silica, or with the compounds of silicon.
a.
Composed of, or derived from, silicon and fluorine.
n.
A nonmetalic element analogous to carbon. It always occurs combined in nature, and is artificially obtained in the free state, usually as a dark brown amorphous powder, or as a dark crystalline substance with a meetallic luster. Its oxide is silica, or common quartz, and in this form, or as silicates, it is, next to oxygen, the most abundant element of the earth's crust. Silicon is characteristically the element of the mineral kingdom, as carbon is of the organic world. Symbol Si. Atomic weight 28. Called also silicium.
a.
Combined or impregnated with silicon or silica; as, silicated hydrogen; silicated rocks.
n.
A silicle.