Quick Summary: 15 Top Ceramic Plate Materials
What are the best ceramic plate materials? GORGEOUS provides a brief answer: the top 15 ceramic plate materials are alumina, zirconia, silicon carbide, boron carbide, silicon nitride, aluminum nitride, cordierite, mullite, boron nitride, glass-ceramic, titanium diboride, lithium aluminum silicate, calcium aluminate, magnesium oxide, and talc.
Each material has unique properties, such as heat resistance, wear resistance, electrical insulation, and toughness, making it well-suited for a variety of industrial, aerospace, and electronic applications.
2.Wat zijn keramische platen?
Keramische platen worden onderverdeeld in natuurlijke materialen, zoals marmer, kwarts, enz., en technische keramiek, gemaakt van natuurlijke materialen. De meeste van deze materialen hebben eigenschappen zoals duurzaamheid, hittebestendigheid en slijtvastheid. Omdat speciaal op maat gemaakte keramische platen onder extreme omstandigheden kunnen functioneren, worden ze vaak op maat gemaakt en in grote hoeveelheden gebruikt in sectoren zoals de lucht- en ruimtevaart, elektronica en productie. Deze materialen worden gesinterd bij hoge temperaturen en gecontroleerd via verschillende processen, zoals spuitgieten, slijpen, CNC-precisiebewerking of 3D-printen, en vervolgens getest via kwaliteitsprocessen om gekwalificeerd gebruik in deze omgevingen te garanderen.
15 Best Ceramic Plate and Their Uses
Hier zijn 15 soorten keramische platen die u moet kennen en hun belangrijkste toepassingen op basis van hun kenmerken. Deze 15 materialen hebben allemaal hun eigen kenmerken en kunnen worden aangepast aan verschillende projecten, zodat de 100% aan uw behoeften kan voldoen en u het meest geschikte product kunt vinden.
Silicon carbide ceramic plate
If your project requires high temperature resistance and long-lasting wear resistance, silicon carbide can be your best choice. If your project happens to be the lining of an industrial high-temperature furnace, protective armor, acid-resistant and salt-resistant containers in chemical equipment, and electronic cooling components in the computing industry, it can be used as a place for it. It has a relatively high cost-effectiveness and can be customized for the scene.
Alumina ceramic plate
Alumina material is the most common and most ideally priced material on the market, and its raw materials are relatively cheap. For example, you can use it in insulating circuits and electronic circuit substrates, artificial joints and dental implants, laboratory high-temperature crucibles, and wear-resistant parts such as pump shafts and valve cores. It is more common in daily life and is also the most widely used raw material.
Zirconia ceramic plate
If your product requires material toughness and thermal stability, zirconium oxide is one of the suitable choices. It is used in bearings and industrial machinery such as dentistry, dentures, ceramic knives, etc. Now it has also developed into battery components in the electrolyte membrane of fuel cells to increase battery life; turbine blades in the aerospace field, resistant to extreme environments.
Boron carbide ceramic plate
Do you need lightweight materials? Boron carbide is the first choice. It is known for its high wear resistance, high hardness, low density and light weight. It is suitable for bulletproof armor and chassis armor. In the nuclear industry, its applications can be seen in neutron absorbers, molds and drilling equipment, but the price is higher than the more common aluminum oxide.
Silicon nitride ceramic plate
Silicon nitride can withstand frequent temperature fluctuations, such as high and low temperatures, and will not deform under such temperature fluctuations. It also has high thermal shock resistance and mechanical strength. It performs well in engine components, industrial bearings and metal forming tools. It can be specially customized for use. The price is higher and the amount is relatively small.
Aluminum nitride ceramic plate
If your product involves the heat dissipation of tiny devices, aluminum nitride is a good thermal conductive element that can facilitate your thermal management. Due to its high thermal conductivity and insulation, it is an ideal choice for static heat sinks and thermal management of high-performance microelectronic packaging.
Talc (magnesium silicate)
When you have a limited budget but need a reliable material, talc is an affordable choice. Early low-end electrical insulators and insulators were made of talc (magnesium silicate), which is cheaper than alumina, but has a shorter lifespan than alumina.
Mullite plate (3Al₂O₃·2SiO₂)
When you need a material with strong thermal shock resistance, mullite is your best choice. Common mullite is very suitable for kiln equipment, thermocouple protection tubes and refractory bricks. It is also used for high-temperature filters in chemical equipment. It is more common in daily life. The raw material price is slightly higher than alumina, but because of its characteristics, it is also worth paying.
Cordierite plate (2MgO·2Al2O₃·5SiO2)
Cordieriet (2MgO·2Al₂O₃·5SiO₂): Cordieriet staat bekend om zijn geringe thermische uitzetting, geringe vervorming, thermische uitzetting en krimp, en lage temperatuur koolwaterstoffen. Het is zeer geschikt als onderdeel van hoogtemperatuurapparatuur zoals katalysatoren, warmtewisselaars en gasovens.
Boron nitride plate (BN)
If your product is in an acidic, alkaline, high temperature, or high humidity environment, you have to choose boron nitride, which is chemically inactive and has strong high temperature stability. It can be used for high temperature insulators, industrial lubricants, semiconductor processing molds, etc. However, the raw material refining process is relatively complicated and the price is relatively high. When applying, it is necessary to compare and purchase according to market conditions.
Glass ceramic plates
If you want to take into account both functionality and aesthetics, glass ceramics are often used in kitchen supplies (such as stoves and protective tabletops) and home partitions due to their impact resistance and toughness. High-purity special glass ceramics can also be used as decorative shells for mobile phones and other products.
Titanium diboride plate (TiB₂)
If you want an extremely hard and durable material, titanium diboride is one of the materials for cutting tools, wear-resistant parts, and protective armor, but it is not very common and relatively expensive. It is used in some specially customized tools. Special customization requires special instructions. It is much more expensive than silicon carbide.
Lithium aluminum silicate plate (LAS)
Lithium aluminum silicate is a multi-element ceramic material with low thermal conductivity.
Calcium Aluminate plate (CA)
When it comes to high-temperature cement and refractory coatings, calcium aluminate provides excellent high-temperature performance. Most industrial kilns and chemical equipment previously used calcium aluminate as a protective layer and sealing layer.
Magnesium Oxide plate(MgO)
If the product performance requirements of your project require extremely high fire resistance and insulation, then magnesium oxide can be just right for you. Magnesium oxide can be used as the main material for the encapsulation of your metallurgical furnaces, glass melting equipment, and high-temperature electrical equipment.
Specific product applications of ceramic plates
When selecting the optimal ceramic substrate, in addition to understanding the properties of the various materials mentioned above, you also need to understand the specific application scenarios for ceramic product components to broaden your application ideas. The following are some key applications for ceramic substrates.
LED Lighting Heat Sinks: If you work in the LED lighting industry, the heat generated by LEDs significantly impacts the lifespan and height of the chip. Therefore, ceramic substrates, due to their excellent thermal conductivity and safe electrical insulation, have become a popular choice for LED lighting fixtures. However, they are more expensive and heavier than aluminum, which can sometimes be affected by heavy use, but they offer advantages in terms of high-end design and long cycle life.
Laser Component Equipment: For laser equipment and laser cutting equipment requiring high precision and reliability, ceramic substrates can be custom-molded and provide stable thermal management and reliable electrical performance.
Power Electronics: In power amplifiers such as UPS power modules and inverters, the high thermal conductivity and reliable electrical insulation of ceramic substrates ensure efficient heat dissipation and stable operation of UPS and inverter equipment.
Automotive Electronics: In the automotive electronics field, ceramic substrates provide excellent thermal management and electrical performance in battery management systems and inverters for electric vehicles.
Aerospace: Aerospace electronic equipment operates at high altitudes and in fluctuating temperatures. Ceramic boards, with their high mechanical strength and thermal stability, provide a strong guarantee for the high reliability and safety of aerospace equipment.
Medical Equipment: Ceramic boards meet the stringent performance and reliability requirements of high-precision medical equipment such as CT scanners and MRI machines.
Architectural Decoration: In the construction industry, large ceramic slabs and ceramic rock slabs are widely used in venues such as plazas, lobbies, curtain walls, exhibition halls, hotels, and museums, as well as in home decoration such as living rooms, background walls, cabinets, and dining tables. They are easy to clean and offer unique effects.
Industrial Kilns: Ceramic fiberboards are often used in high-temperature kilns in the ceramics, glass, and petrochemical industries as backing insulation, burner blocks, and hot surface linings, providing high-temperature resistance, heat preservation, and energy conservation.
Conclusie
Over het algemeen maken de diversiteit en bruikbaarheid van keramische platen ze een belangrijke keuze in diverse industrieën en projectproducten. Van hogetemperatuur- tot elektronische componenten voor wetenschappelijk onderzoek, keramische materialen worden veel gebruikt vanwege hun thermische stabiliteit, slijtvastheid en corrosiebestendigheid. Bovendien, met de vooruitgang in wetenschap en technologie, hebben de beste keramische platen niet alleen een mooi uiterlijk en praktische prestaties, maar richten ze zich ook op milieubescherming en praktische waarde.
Bij de aanschaf van keramische materialen moet u uitgaan van de specifieke behoeften van het project. Of het nu gaat om zeer sterke en lichte, lichtgewicht keramiek of speciale slijtvaste materialen voor omgevingen met hoge temperaturen, na regelmatige vergelijking en evaluatie kan het maken van de juiste keuze de kwaliteit en efficiëntie verbeteren.
Door de eigenschappen van verschillende keramische materialen voortdurend te begrijpen en te verbeteren, kunt u snel de gewenste producten kiezen en selecteren en het gewenste effect bereiken. Of het nu gaat om het serviesgoed dat u dagelijks koopt of de keramische precisieonderdelen die u gebruikt voor hoogwaardige industriële of wetenschappelijke onderzoeksapparatuur, het analyseren en selecteren van de meest geschikte materialen is de belangrijkste stap om de kwaliteit en efficiëntie van het project te verbeteren.
Veelgestelde vragen
1. Wat is keramisch serviesgoed en keramische borden? Wat is het verschil?
Keramisch serviesgoed bestaat uit kaolien en wordt vanwege de hittebestendigheid en schoonheid vaak gebruikt voor dagelijks serviesgoed. Keramische borden worden daarentegen vaak gebruikt in de industrie en in wetenschappelijk onderzoek vanwege hun mechanische eigenschappen, chemische eigenschappen en speciale eigenschappen.
2. Wat is het verschil tussen porselein en keramiek?
Porselein is een soort keramiek, gemaakt van fijne klei die op een bepaalde hoge temperatuur wordt gebakken. Het heeft een hogere sterkte, gladheid en decoratieve eigenschappen. Vergeleken met porselein zijn er meer soorten keramiek, waaronder aardewerk en gebruiksvoorwerpen, zoals laboratoriumkroezen en hulpmiddelen voor wetenschappelijk onderzoek.
3. Hoe maak ik keramische kookplaten en keramische platen schoon?
Keramische borden kunnen worden afgewassen of in de vaatwasser worden gedaan. Week ze eerst in warm water, schrob ze vervolgens schoon en doe ze daarna in de vaatwasser om ze te reinigen. Deze vaatwasser is dan schoner. Keramische borden kunnen met een borstel worden schoongemaakt om hardnekkige vlekken te verwijderen, of kunnen met een borstel worden geborsteld om het oppervlak schoon te houden.
4. Kunnen keramische borden en keramische platen in de magnetron?
Keramische borden met een hoge zuiverheidsgraad en kleine keramische onderdelen kunnen in de magnetron worden geplaatst, maar zorg ervoor dat er geen metalen decoratie of verflaag op de borden zit om chemische reacties en de productie van schadelijke stoffen te voorkomen. Het is raadzaam om keramische borden en keramische borden te gebruiken die speciaal voor magnetrons zijn ontworpen.
5.What are the most heat-resistant and high-temperature resistant ceramic plate materials?
Silicon carbide and alumina ceramic plates perform best at high temperatures and are the most commonly used ceramic materials in furnaces and industrial kilns.
6.What are the most suitable ceramic materials for electronic heat dissipation?
Aluminum nitride is an ideal material for heat dissipation electronic packaging due to its extremely high thermal conductivity and insulation properties.
7.What is the strongest ceramic plate material?
Boron carbide and zirconium oxide are among the strongest ceramic materials and are commonly found in bulletproof armor and industrial machinery components.