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• Which industries do advanced ceramics apply to

  Mar 03, 2025

  (1) Manufacturing industry Application scenarios: Cutting tools, abrasives, molds. Application reason: High hardness and wear resistance, suitable for high-precision machining and wear parts.   (2) Energy and electricity Application scenario: insulator, spark plug, fuel cell assembly. Application reason: Excellent electrical insulation and high temperature resistance.   (3) Chemical industry Application scenario: reactor lining, pump valve, pipeline. Application reason: corrosion resistance, suitable for dealing with acid, alkali and other corrosive media.   (4) Aerospace Application scenarios: engine components, thermal protection systems. Application reason: high temperature resistance, low density, suitable for weight loss and high temperature environment.   (5) Electronics and semiconductors Application scenarios: substrate, packaging material, sensor. Application reasons: electrical insulation, thermal stability and high frequency performance.   (6) Medical industry Application scenarios: artificial joints, dental implants, surgical instruments. Application reasons: Biocompatibility and wear resistance.   (7) Environmental protection industry Application scenario: filter, catalyst carrier. Application reasons: high temperature resistance, corrosion resistance, suitable for waste gas treatment and waste water filtration.   (8) Metallurgical industry Application scenario: refractory material, crucible, furnace lining. Application reason: high temperature resistance and heat shock resistance.   (9) Optical industry Application scenarios: laser, optical window, transparent ceramics. Reason for application: Excellent optical properties and high temperature resistance.   (10) Emerging industries New energy: such as hydrogen energy, fuel cells. 3D printing: The application potential of ceramic 3D printing technology.

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• Why choose advanced ceramics

  Feb 04, 2025

  1. High hardness and wear resistance Wear resistance: High hardness of industrial ceramics, suitable for high wear environment, such as mines, cement factories. Long life: Long service life in harsh conditions, reduce the frequency of replacement.   2. High temperature resistance High temperature stability: can maintain performance at high temperatures, suitable for aerospace, metallurgy and other industries. Thermal shock resistance: can withstand rapid temperature changes, not easy to crack.   3. Corrosion resistance Chemical inertness: Strong resistance to acid, alkali, salt and other corrosive substances, suitable for chemical and pharmaceutical industries. Oxidation resistance: Stable performance in high temperature oxidation environment.   4. Electrical insulation Insulation performance: Good electrical insulation, suitable for electronics and power industry. High frequency applications: Maintains insulation properties at high frequencies and high temperatures.   5. Low density Lightweight materials: Low density, suitable for aerospace and automotive industries that need to reduce weight. High specific strength: high strength and light weight.   6. Biocompatibility Medical applications: Non-toxic and compatible with human tissue, suitable for medical implants and devices.   7. Optical performance Transparent ceramics: Some ceramics have excellent optical properties, suitable for laser technology, optical devices.   8. Environmental protection Renewable materials: Some ceramics can be recycled to reduce environmental pollution. Low energy production: The production process uses low energy and reduces the carbon footprint.   9. Versatility Diverse applications: By adjusting the composition and process to meet different needs, such as sensors, catalyst carriers.   10. Economic benefits Low long-term costs: While initial costs are high, long life and low maintenance requirements reduce overall costs. Improve efficiency: Superior performance improves equipment efficiency and reduces downtime.

  Hot Tags : Why choose industrial ceramics Why choose advanced ceramics Advantages of advanced ceramics Advanced ceramics advantages Advantages of industrial ceramics

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• Industrial ceramic production process introduction

  Dec 27, 2024

  Industrial ceramic production process mainly includes the following steps ‌ :   ‌1. Powder preparation ‌ : The production of industrial ceramics first requires the preparation of high quality ceramic powder. The quality of the powder directly affects the quality of the final product, which usually requires high purity, good dispersion and uniform particle size distribution. For example, microcrystalline zirconium materials are often used as ceramic powder raw materials for 3C product shells because of their advantages of phase transition toughening ‌.   ‌2. Molding ‌ : Molding is the key step in the production of ceramic parts, the commonly used molding methods include injection molding, dry press molding and casting molding.   ‌(1) injection molding ‌ : similar to plastic injection molding, suitable for the production of small complex shapes of precision ceramic parts. The process involves mixing the organic carrier with ceramic powder, drying, granulating and injecting it into a mold to form a blank in the desired shape ‌. ‌(2) dry pressing ‌ : the powder after granulation is loaded into the mold, and the billet of a certain shape is made by applying pressure to the press. This method is suitable for the production of flat shaped products, high efficiency but may not be uniform density ‌. ‌(3) casting molding ‌ : suitable for the production of thin ceramic material, the casting machine will flow the slurry to the base band to form a smooth upper surface of the blank film, after drying, cutting, stamping or drilling, and finally firing into the finished product ‌.   ‌3. Sintering ‌ : The forming body needs to go through the sintering process to achieve the required physical and chemical properties. Parameters such as temperature, time and atmosphere need to be controlled in the sintering process to ensure the density and strength of the product ‌.   4.‌ subsequent processing ‌ : The sintered ceramic parts may need to be grinding, polishing and other subsequent processing to improve the surface quality and accuracy. Commonly used processing technologies include grinding, ultrasonic machining, electric discharge machining, laser machining and CNC milling ‌.

  Hot Tags : Ceramic forming Dry press ceramic molding Hot-pressed ceramic molding Casting ceramic forming Injection ceramic molding

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• History of industrial ceramics

  Dec 27, 2024

  Industrial ceramics is an important material, widely used in various fields. Its development history can be traced back to ancient times, but it was not until the end of the 19th century and the beginning of the 20th century that industrial ceramics developed rapidly with the development of the chemical industry and the progress of science and technology. The first industrial ceramics were pottery used in metallurgy, fire resistance and other fields. At the end of the 19th century, British chemists invented high-temperature sintering technology, which greatly improved the performance of ceramics, and also created new application fields, such as electronics, medical, aviation and other fields At the beginning of the 20th century, industrial ceramics were widely used and became an important industrial material. With the progress of science and technology and the development of new materials, the performance of industrial ceramics has been greatly improved, such as high temperature resistance, corrosion resistance, insulation and other properties, making its application more extensive. At present, industrial ceramics have become an indispensable material, widely used in automotive, electronics, medical, aviation and other fields. In the future, with the continuous progress of science and technology, the performance of industrial ceramics will be further improved, and its application fields will continue to expand.

  Hot Tags : Industrial ceramics Advanced ceramics Special ceramics

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