Technical Ceramics There are 237 products.

Subcategories

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  Lanthanum Hexaboride...

  Lanthanum hexaboride, LaB6, purple powder, insoluble in water, hydrochloric acid Its series products mainly include LaB6 powder, LaB6 polycrystals, LaB6 single crystals. Especially lanthanum hexaboride single crystal is the material for making high-power electron tube, magnetron, electron beam, ion beam and gas pedal cathode.

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  Pyrolytic Boron...

  Pyrolytic Boron Nitride (PBN) is a kind of advanced ceramic, that can be produced with 99.999% purity in high density. It is made by ammonia and Boron halide through a Chemical Vapor deposition(CVD) process in high temperature and high vacuum conditions, it can be produced as PBN plates and also can be produced as PBN final products directly like a crucible, boat, coating, etc.
  
  

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  Boron Nitride (BN)...

  Boron nitride (BN) is a crystal composed of nitrogen atoms and boron atoms. The chemical composition is 43.6% boron and 56.4% nitrogen with four different variants: hexagonal boron nitride (HBN), rhomboid boron nitride (RBN), cubic boron nitride (CBN), ZSBN, and fiber zinc ore boron nitride (WBN).
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  Alumina Ceramics (Al2O3)

  Alumina ceramic is a ceramic material with alumina (Al2O3) as the main body for thick film integrated circuits. Alumina ceramics have good conductivity, mechanical strength and high temperature resistance.

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  Aluminum Nitride (AlN)...

  Aluminum nitride (AlN) possesses excellent thermal conductivity, high electrical insulation, and thermal expansion properties similar to silicon. These characteristics make it suitable for use as a high thermal conductivity substrate in applications such as power transistor module substrates, laser diode mounting substrates, and IC packaging. Furthermore, its outstanding resistance to halogen gases enables its use as a component in semiconductor manufacturing equipment.

  HM is a professional supplier and manufacturer of high-quality AlN products and leverages extensive expertise in supply and export to offer competitive prices.

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  Silicon NItride...

  Silicon Nitride Ceramics are high-performance ceramic materials known for their excellent wear resistance, thermal shock resistance, and outstanding chemical stability, widely used in aerospace, automotive, electronics, and medical industries. This material exhibits remarkable mechanical strength and toughness, enabling it to maintain excellent performance even in high-temperature environments, primarily used for manufacturing wear-resistant components, cutting tools, and insulators.

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  Silicon Carbide (SiC)...

  Silicon carbide ceramics have excellent high-temperature mechanical properties, making them commonly used in manufacturing cutting tools, wear-resistant components, heat exchangers, and electronic devices. Its maximum operating temperature is up to 1600 ℃, and its oxidation resistance is also the best of all non-oxide ceramics.

  HM is a leading supplier and manufacturer of high-quality Silicon Nitride Ceramics products, offering customized solutions to meet specific requirements.

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  Graphite Products

  Graphite is known for its excellent conductivity, high-temperature resistance, and lubricating properties, primarily used to manufacture batteries, lubricants, conductive materials, and refractory materials. It is a key material for lithium-ion batteries. HM can supply high-quality graphite products in various forms, offering customized solutions to meet specific requirements.

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  Zirconia Ceramic

  Zirconia Ceramic is an advanced material known for its exceptional mechanical properties and chemical stability. It has important applications in high-temperature and corrosive environments in the aerospace, automotive, and electronics industries. Heeger Materials is a professional supplier and manufacturer of high-quality and high-precision Zirconia Ceramic products, offering competitive prices and customized solutions.

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  MAX Phase Ceramic...

  MAX phase ceramic materials are a class of layered compounds, typically composed of a transition metal, an A-group element (usually from group 13 or 14), and carbon or nitrogen. These materials combine the properties of both metals and ceramics, exhibiting high strength, high-temperature resistance, oxidation resistance, and good electrical and thermal conductivity. They are widely used in aerospace, energy, and electronics.

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  Boron Carbide Ceramics...

  Boron Carbide (B4C) Ceramic is a highly durable ceramic material with exceptional hardness and wear resistance. It ranks as the second hardest material among all ceramics, second only to diamond and cubic boron nitride, making it widely used in abrasives, coatings, cutting tools, and other applications. 

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  Magnesium Oxide...

  MgO ceramics are known for their high thermal stability, electrical insulation, and resistance to high temperatures. They are widely used in electronics, automotive, and aerospace applications. Heeger Materials offers premium MgO ceramics tailored to meet industry needs.

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  Quartz Ceramics

  Quartz ceramics offer excellent thermal stability, low thermal expansion, and high hardness, with great resistance to thermal shock and chemical corrosion. They are used in precision applications like semiconductors and optics. Heeger Materials provides high-quality quartz ceramics for various industries.

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  Macor Machinable Glass...

  Macor Machinable Glass Ceramic is a unique hybrid material blending ceramic and glass properties. It offers excellent thermal and electrical insulation, high dimensional stability, and can be machined with conventional tools, making it ideal for precision components in aerospace, medical, and semiconductor industries.

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  Beryllium Oxide (BeO)...

  Beryllium Oxide (BeO) ceramic is a high-performance material with excellent thermal conductivity and electrical insulation. Widely used in electronics and aerospace, it efficiently dissipates heat while remaining stable at high temperatures. Due to beryllium’s toxicity, strict safety measures are needed.

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  Piezoelectric Ceramics

  Piezoelectric ceramics are advanced materials that generate an electric charge in response to mechanical stress and vice versa, making them essential for applications in sensors, actuators, transducers, and energy harvesting devices. These ceramics, typically based on compounds like lead zirconate titanate (PZT), exhibit unique electromechanical properties, enabling their use in industries such as automotive, medical, aerospace, and consumer electronics.