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<title><![CDATA[EC21 Product Catalogs - boride]]></title>
<link><![CDATA[https://www.ec21.com/ec-market/boride.html]]></link><item>
<title><![CDATA[99.7% High-Purity TIB2 Titanium Boride Powder for Ceramic]]></title><link><![CDATA[https://penscmolly123.en.ec21.com/99.7_High_Purity_TIB2_Titanium--12003558_12004823.html]]></link><description><![CDATA[99.7% High-Purity Titanium boride powder for Ceramic
ltemGradePurity&gt;99%Oxygen content
&lt;0.7%
Carbon content&lt;0.3%Average particle size2-50μm
Typical applications
Titanium borate powder can be applied]]></description><pubDate><![CDATA[20240914]]></pubDate></item>
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<title><![CDATA[T154B Boride Polyisobutylene Bis-Succinimide Ashless Dispersant]]></title><link><![CDATA[https://8604163906386.en.ec21.com/T154B_Boride_Polyisobutylene_Bis_Succinimide--9181382_9187773.html]]></link><description><![CDATA[1. DESCRIPTION 
It provides the lubricant with excellent dispersibility at low-temperature and stability at high-temperature. It has favorable solubilization of smoke ash, inhibits the formation of c]]></description><pubDate><![CDATA[20140916]]></pubDate></item>
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<title><![CDATA[B4C Boron Carbide]]></title><link><![CDATA[https://orirawmateria.en.ec21.com/B4C_Boron_Carbide--9689370_9727084.html]]></link><description><![CDATA[borides, boron carbide was only studied in detail since 1930.
Boron carbide powder (see figure 1) is mainly produced by reacting carbon with B2O3 in an electric arc furnace, through carbothermal redu]]></description><pubDate><![CDATA[20250301]]></pubDate></item>
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<title><![CDATA[100nm 99.9% Crystal Form Boron Nanopowders]]></title><link><![CDATA[https://hwnanomaterial.en.ec21.com/100nm_99.9_Crystal_Form_Boron--9055729_9564771.html]]></link><description><![CDATA[borides and coatings or hardening agent. 
3.Deoxidizer in Oxygen-free smelting,ignitor in the air bag of automobile.
4.Additive in MgO-C bricks used for steel-making high temperature furnace.
5.Nano ]]></description><pubDate><![CDATA[20240522]]></pubDate></item>
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<title><![CDATA[Boron Trifluoride, BF3 Specialty Gas]]></title><link><![CDATA[https://taiyugases.en.ec21.com/Boron_Trifluoride_BF3_Specialty_Gas--11601466_11601469.html]]></link><description><![CDATA[borides, and also used in nuclear technology and optical fiber. 
Product Description
CAS No.
7637-07-2
UN No.
1008
EINECS No.
231-569-5
Molecular weight
67.8062
Appearance
colourless, pungent odor
Me]]></description><pubDate><![CDATA[20230712]]></pubDate></item>
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<title><![CDATA[Customized Neodymium Boron Magnets]]></title><link><![CDATA[https://unmagnet.en.ec21.com/Customized_Neodymium_Boron_Magnets--11868809_11868810.html]]></link><description><![CDATA[PRODUCT DESCRIPTION35M-50M Grade Neodymium-Iron-Boride Magnet With Customized Magnetic OrientationProduct DescriptionSintered Neodymium Magnet is made from Neodymium Iron Boron material which is a hi]]></description><pubDate><![CDATA[20231121]]></pubDate></item>
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<title><![CDATA[Special Purpose Reactor -  Self-Propagating Reactor]]></title><link><![CDATA[https://ilshinauto.en.ec21.com/Special_Purpose_Reactor_Self_Propagating--8932238_8934845.html]]></link><description><![CDATA[boride and metals through self-propagating reaction in few seconds, so it is simple and economical.
This method is developed in 1962, the Soviet Union, and until now over 300 compounds have been obta]]></description><pubDate><![CDATA[20180919]]></pubDate></item>
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<title><![CDATA[Boron Oxide]]></title><link><![CDATA[https://ruihongchem.en.ec21.com/Boron_Oxide--11842904_11843228.html]]></link><description><![CDATA[a dopant for semiconductor materials, an acid catalyst in organic synthesis, a fire-resistant additive for paint, and a raw material for the production of elemental boron and a variety of Boride.
]]></description><pubDate><![CDATA[20230910]]></pubDate></item>
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<title><![CDATA[Zinc Oxide Targets]]></title><link><![CDATA[https://chenfb2010.en.ec21.com/Zinc_Oxide_Targets--5949956_5950183.html]]></link><description><![CDATA[Boride Ceramic Sputtering Targets: Cr2B, CrB, CrB2, Cr5B3, FeB, HfB2 ,LaB6, Mo2B, Mo2B5 ,NbB, NbB2, TaB, TaB2, TiB2, W2B, WB, VB, VB2, ZrB2,other Doped boride ceramic targets 
Carbide Ceramic Sputter]]></description><pubDate><![CDATA[20140221]]></pubDate></item>
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<title><![CDATA[Aluminium Boron ALB3/ALB4/ALB5/ALB8]]></title><link><![CDATA[https://aolaide001.en.ec21.com/Aluminium_Boron_ALB3_ALB4_ALB5--8647361_10432198.html]]></link><description><![CDATA[borides of Cr, Ti, V, and Zr. 
Composition
Metal Grade
Chemical Composition (%)
Si
Fe
Cu
Ti
B
Impurities 
Al 
AlB1 
0.2
0.3
0.1
-
0.50-1.5
0.15
the balance
AlB3
0.2
0.35
0.1
-
2.5-3.5
0.1
the balance]]></description><pubDate><![CDATA[20170606]]></pubDate></item>
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<title><![CDATA[PIBSA1000 Polyisobutylene Succinic Anhydride PIBSA Oil Dispersant]]></title><link><![CDATA[https://xphb99.en.ec21.com/PIBSA1000_Polyisobutylene_Succinic_Anhydride_PIBSA--11482532_11482535.html]]></link><description><![CDATA[of polyisobutylene succinimide,and boride ashless dispersant.
For preparation of emulsifying agents for emulsion explosives.
For preparation of processing additive for petrochemical plant.]]></description><pubDate><![CDATA[20211126]]></pubDate></item>
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<title><![CDATA[Polyisobutylene Succinic Anhydride PIBSA-1000]]></title><link><![CDATA[https://aprillee2019.en.ec21.com/Polyisobutylene_Succinic_Anhydride_PIBSA_1000--11028586_11069219.html]]></link><description><![CDATA[boride ashless dispersant
Use in preparing emulsifying agents for
emulsion explosives
Use in preparing processing additive for
petroleum chemical plant
Characteristics 
Item
Test Value
Test
Method
Ap]]></description><pubDate><![CDATA[20210713]]></pubDate></item>

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