Technical Ceramics

Technical ceramics used in various sectors have high purity values. Aerospace, defense, medical, electronics and energy are just a few of the uses. Using advanced technical ceramics, armor plates are produced in the defense industry that are resistant to mechanical and chemical corrosion, resistant to high temperatures, lightweight and have high hardness value.

Boron Carbide (B4C)

Boron Carbide is known as the 3rd hardest material in the world and has high hardness, high melting temperature, high chemical resistance, high wear resistance, low density, and semiconductor structure. Boron carbide offers the most advanced ballistic protection solutions in personnel and platform protection. It is also preferred in nuclear reactors and high temperature applications. KİM Teknoloji manufactures boron carbide ceramics in accordance with the needs of different sectors with “reaction bonding” and “hot pressing” methods.

Silicon Carbide (SiC)

Silicon carbide advanced ceramics with high hardness, high bending strength and low density have an important place in personnel and vehicle protection together with boron carbide. In addition, it is a type of material used in the aviation and space sectors due to its heat resistance and wear-resistant structure. Silicon carbide advanced ceramics can also be used as a semiconductor. KİM Teknoloji manufactures silicon carbide ceramics in accordance with the needs of different sectors with "reaction bonding" and "sintering" methods.

Titanium Diboride (TiB2)

Titanium diboride is a material with high elastic modulus, high hardness and strength, high melting temperature, high wear resistance, high electrical conductivity, high corrosion resistance and high fracture toughness. Titanium diboride, which is generally preferred for armoring of land vehicles where higher total weight is acceptable and high mass efficiency is required and is also used in jet and rocket engine parts production, composite material production, fiber optic cables and nuclear reactors. Kim Teknoloji can produce Titanium diboride with advanced technical methods.

Alumina (Al₂O₃)

Alumina ceramics with high bending strength, high wear resistance and hardness can be used in the production of bio-ceramics and dental surgery, electrical insulators, capacitors, resistors, laboratory equipment, wear plates and bearings, as well as platform armoring. Kim Teknoloji can produce Alumina ceramics with advanced technical methods.

Silicon Nitride (Si3N4)

Silicon nitride, which is in the oxide-free ceramics group, has properties such as high bending strength, high temperature resistance, high hardness, low density, chemical stability. It is used in rocket nozzles, orthopedic applications as a biomaterial, in cutting edge production, insulating material in electronics and as a chemical barrier in integrated circuits. Kim Teknoloji can produce Silicon Nitride ceramics with advanced technical methods.

Zirconium Dioxide (ZrO2)

Zirconium dioxide, also known as zirconia, has high toughness, bending strength, wear resistance and low friction coefficient. Another outstanding feature is that it has good insulation and strong corrosion resistance. One of its most important features is its resistance to heat. The main use of zirconia is in dental applications. Also, stabilized zirconia is used in oxygen sensors and fuel cell membranes. Zirconia is the precursor to the electro-ceramic lead zirconate titanate with a high K dielectric found in numerous components. Kim Teknoloji can produce Zirconium Dioxide ceramics with advanced technical methods.

Transparent Ceramics

Transparent ceramics have low density, high strength, and high wear resistance. It prevents high threat levels with its lighter weight and low thickness by these features. Transparent ceramics are used in vehicle and personnel protection, night vision cameras, rocket head and satellite communication systems. Kim Teknoloji develops advanced technical methods to produce transparent ceramics.

HTCC ve LTCC

Our HTCC and LTCC applications; It is the technology of choice for high frequency RF and microwave applications in the wireless and radar industries. Passive components are embedded between the HTCC and LTCC tape layers, minimizing the length of interconnects, improving integration and robustness, and further reducing circuit geometry. This capability is supported by continued significant investments in fully automated production facilities to maintain the consistent quality levels demanded by our customers' high reliability requirements. Substrates produced using the co-firing technique are processed using the same methods as standard alumina substrates.

Piezo Ceramics

KİM Teknoloji provides services to the defense, automotive, medical, telecommunications, electronics, and energy sectors with its material knowledge in the field of piezoelectricity.

Ceramic capacitors, resistors, capacitors, electro strictive actuators, electromechanical and ultrasonic transducers, infrared sensors and sensor applications are among the main product groups provided by our expert engineers to the industry.

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