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Overview of aerospace
The convergence of ceramics with the aerospace industry symbolizes a major leap forward in materials science, which not only solves unique challenges but also paves the way for future innovations. The wide range of applications for ceramics, from enhancing the performance of jet engines to protecting spacecraft for re-entry into the atmosphere, underscores their importance in the field. As research and development continues, the role of ceramics in aerospace is bound to become even more critical, propelling future aerospace technology to new heights.
The convergence of ceramics with the aerospace industry symbolizes a major leap forward in materials science, which not only solves unique challenges but also paves the way for future innovations. The wide range of applications for ceramics, from enhancing the performance of jet engines to protecting spacecraft for re-entry into the atmosphere, underscores their importance in the field. As research and development continues, the role of ceramics in aerospace is bound to become even more critical, propelling future aerospace technology to new heights.
Aerospace product capabilities
Aerospace electronic systems
Propulsion and control
Aircraft and engine thermal protection
Aerospace electronic systems
Ceramic electronic substrates and components provide high reliability performance for aerospace applications in a wide range of temperatures, fluids and environmental conditions. Engineered technical ceramics excel at high temperatures, vibration and extreme mechanical conditions, while other materials are prone to failure.
Aerospace grade electronic substrates
Aluminum nitride substrates for aerospace electronics applications. Aluminum oxide thick and thin film substrates are used to produce rugged hybrid circuits for airborne and on-board electronic systems. Aluminum nitride (AlN) substrates excel in high-temperature regions where temperature gradients vary – dissipating heat 4-6 times better than alumina.
On-board sensor assembly
Aluminum oxide sensor assemblies for aerospace and automotive applications. Aircraft and spacecraft use sensors in a variety of systems – for detecting pressure, temperature, proximity, oxygen, gases, etc. loongceram ceramic sensor assemblies utilize exclusive advanced technology ceramics to provide accurate, rugged sensors that can withstand the extreme environments of aerospace applications.
Aerospace electrical components
Advanced ceramic electrical components play a key role in the aerospace field and are used in aero-engines, spacecraft electronic systems, power electronics, communications and propulsion systems by virtue of their excellent high-temperature resistance, radiation resistance, high insulation, low dielectric loss, and lightweight characteristics.
Ceramic electronic substrates and components provide high reliability performance for aerospace applications in a wide range of temperatures, fluids and environmental conditions. Engineered technical ceramics excel at high temperatures, vibration and extreme mechanical conditions, while other materials are prone to failure.
Aerospace grade electronic substrates
Aluminum nitride substrates for aerospace electronics applications. Aluminum oxide thick and thin film substrates are used to produce rugged hybrid circuits for airborne and on-board electronic systems. Aluminum nitride (AlN) substrates excel in high-temperature regions where temperature gradients vary – dissipating heat 4-6 times better than alumina.
On-board sensor assembly
Aluminum oxide sensor assemblies for aerospace and automotive applications. Aircraft and spacecraft use sensors in a variety of systems – for detecting pressure, temperature, proximity, oxygen, gases, etc. loongceram ceramic sensor assemblies utilize exclusive advanced technology ceramics to provide accurate, rugged sensors that can withstand the extreme environments of aerospace applications.
Aerospace electrical components
Advanced ceramic electrical components play a key role in the aerospace field and are used in aero-engines, spacecraft electronic systems, power electronics, communications and propulsion systems by virtue of their excellent high-temperature resistance, radiation resistance, high insulation, low dielectric loss, and lightweight characteristics.
Propulsion and control
Today’s aerospace technology places greater demands on the performance of materials used inside engines, flight controls and fluid control devices. Conventional metals used in these systems are often unable to withstand extreme conditions. As a result, advanced ceramic materials have emerged. Lonza engineered ceramic components provide the mission-critical reliability required for aerospace propulsion and control systems.
Engine components
Loongceram Technical Ceramics have the high-performance properties needed to meet the most demanding requirements of aircraft engines and advanced propulsion systems, including:
1.Balls and bearings that utilize the thermal strength and durability of silicon nitride materials
2.Ceramic igniters, bushings and wear parts
3.Ceramic tubes and rods used in investment casting to form blades for aircraft turbine engines.
Flight Control Components
loongceram Silicon Nitride Bearing Balls for Aerospace Applications. loongceram ball bearings and other advanced ceramic components excel under the harsh mechanical and thermal conditions of critical flight control systems such as ball screw linear actuators for flaps and slit wings.
Today’s aerospace technology places greater demands on the performance of materials used inside engines, flight controls and fluid control devices. Conventional metals used in these systems are often unable to withstand extreme conditions. As a result, advanced ceramic materials have emerged. Lonza engineered ceramic components provide the mission-critical reliability required for aerospace propulsion and control systems.
Engine components
Loongceram Technical Ceramics have the high-performance properties needed to meet the most demanding requirements of aircraft engines and advanced propulsion systems, including:
1.Balls and bearings that utilize the thermal strength and durability of silicon nitride materials
2.Ceramic igniters, bushings and wear parts
3.Ceramic tubes and rods used in investment casting to form blades for aircraft turbine engines.
Flight Control Components
loongceram Silicon Nitride Bearing Balls for Aerospace Applications. loongceram ball bearings and other advanced ceramic components excel under the harsh mechanical and thermal conditions of critical flight control systems such as ball screw linear actuators for flaps and slit wings.
Fluid Control System Components
Alumina Ball Valve Components for Aerospace Propulsion. Aerospace valves, seals and hydraulic components require high-performance engineered ceramics to meet the demanding use conditions of high-temperature gas turbine engines, rocket motors and control systems.
High Performance Ceramic Tube Rods
loongceram offers a wide range of tube rods made from high performance technical ceramic materials including alumina, zirconia and silicon carbide. Enhance performance and extend product life by selecting the material best suited for your application. loongcream’s materials experts will help you select the material best suited for your application.
Alumina Ball Valve Components for Aerospace Propulsion. Aerospace valves, seals and hydraulic components require high-performance engineered ceramics to meet the demanding use conditions of high-temperature gas turbine engines, rocket motors and control systems.
High Performance Ceramic Tube Rods
loongceram offers a wide range of tube rods made from high performance technical ceramic materials including alumina, zirconia and silicon carbide. Enhance performance and extend product life by selecting the material best suited for your application. loongcream’s materials experts will help you select the material best suited for your application.
Aircraft and engine thermal protection
The characteristics of ultra-high temperature stability, low thermal conductivity, and thermal shock resistance have made it a key material for modern aero-engines and aircraft thermal protection systems, and it is widely used in combustion chambers, turbine blades, exhaust systems, and fuselage heat shields, and other key parts.
Thermally protect
Technical Ceramic Aerospace Radiators. Highly efficient engines operate at high temperatures where advanced ceramic materials provide reliable long-term performance as mission-critical components, thermal barriers and thermal barrier coatings (TBCs).
Technical Ceramic Aerospace Radiators. Highly efficient engines operate at high temperatures where advanced ceramic materials provide reliable long-term performance as mission-critical components, thermal barriers and thermal barrier coatings (TBCs).
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