Баррасии сафолҳои кремний нитриди

Керамикаи кремний нитриди маводи баландсифат мебошанд, ки бо хосиятҳои хуби механикии худ, аз ҷумла қувват, сахтӣ ва муқовимат ба фарсудашавӣ, зангзанӣ ва зарбаи гармӣ маълуманд, ки онҳоро барои барномаҳои серталаб дар соҳаҳои мухталиф беҳтарин мекунанд.

Хусусиятҳои керамики нитриди кремний

Сахтии истисноӣ ва муқовимат ба фарсудашавӣ.

Қувваи баланди механикӣ ва устувории шикаста.

Устувории аълои гармӣ ва муқовимат ба зарбаи гармӣ.

Муқовимат ба зангзании баланд дар муҳити хашмгин.

Зичии паст, ки ба ҷузъҳои сабук мусоидат мекунад.

(High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls)

Specifications of High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls

High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls are engineered for demanding industrial applications. These balls are made from advanced silicon nitride (Si3N4) ceramic material. The material ensures exceptional performance under extreme conditions. The product meets G10 precision grade standards. This guarantees tight dimensional tolerances and consistent roundness for smooth operation.

The primary feature is high-temperature resistance. These ceramic balls withstand continuous operation up to 800°C (1472°F). They maintain structural integrity in environments where steel bearings fail. Thermal shock resistance is another key advantage. Rapid temperature changes do not cause cracking or deformation. This makes them ideal for aerospace, automotive, and energy sectors.

Mechanical properties are superior. Silicon nitride has high hardness (HV10 ≥ 1500). It resists wear and reduces friction compared to metal alternatives. The low density (3.2 g/cm³) lowers centrifugal force in high-speed applications. This extends service life and improves efficiency.

Chemical stability is excellent. The material resists corrosion from acids, alkalis, and solvents. It performs reliably in harsh chemical environments. Electrical insulation properties prevent current leakage. This is critical for electric motors and medical devices.

Applications include turbine engines, precision spindles, and semiconductor manufacturing. They are used in electric vehicle drivetrains and high-speed machine tools. The non-magnetic nature ensures performance in MRI machines and scientific instruments.

These ceramic balls reduce maintenance costs. They eliminate lubrication needs in many setups. Energy consumption drops due to lower friction. Compatibility with extreme temperatures and corrosive settings makes them versatile.

Manufacturing follows strict quality control. Each batch undergoes rigorous testing for hardness, density, and surface finish. Custom sizes and grades are available. The product meets ISO and ASTM standards for reliability.

Silicon nitride G10 bearing balls outperform traditional steel in harsh conditions. They deliver durability, precision, and efficiency. Industries requiring high-performance solutions benefit from this advanced material.

(High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls)

Applications of High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls

High-temperature resistance silicon nitride G10 precision ceramic bearing balls are engineered for demanding environments. These components excel in extreme heat conditions. They maintain structural integrity under thermal stress. Their low thermal expansion reduces deformation risks. This makes them ideal for high-speed rotating equipment.

Industries like aerospace rely on these ceramic balls. Jet engines and turbine systems require materials that withstand intense heat. Metal bearings often fail under such stress. Silicon nitride G10 resists temperatures exceeding 1000°C. It prevents premature wear in critical machinery.

Automotive applications benefit from these ceramic balls. Electric vehicle motors generate significant heat during operation. Traditional steel bearings degrade faster under high temperatures. Ceramic balls reduce friction. They improve energy efficiency. They extend component lifespan in hybrid and electric drivetrains.

Manufacturing sectors use these bearings in high-temperature furnaces. Handling molten metals or glass demands durable materials. Silicon nitride G10 resists chemical corrosion. It avoids contamination in precision processes. This ensures consistent product quality in harsh industrial settings.

Medical equipment manufacturers value these bearings for sterilization processes. Autoclaves and imaging devices operate at elevated temperatures. Ceramic balls withstand repeated heating cycles. They avoid lubrication needs. This reduces maintenance in sterile environments.

The material’s electrical insulation properties add value. Motors and generators face electrical arcing risks. Ceramic bearings prevent current transfer. They minimize equipment damage. This enhances safety in high-voltage applications.

Silicon nitride G10 outperforms metals in weight reduction. Lighter bearings reduce rotational inertia. This boosts efficiency in high-speed machinery. Fuel consumption drops in automotive and aerospace systems.

These ceramic balls resist oxidation. Moisture and corrosive gases degrade metal bearings. Silicon nitride G10 remains stable. It ensures reliability in marine or chemical processing equipment.

Production methods ensure precision. Advanced grinding achieves tight tolerances. Surface finishes minimize friction. Strict quality checks guarantee uniformity. This meets standards for aerospace and medical industries.

Durability reduces replacement frequency. Harsh environments demand long-lasting components. Silicon nitride G10 lowers downtime costs. It supports continuous operation in critical systems.

Material purity prevents contamination. Semiconductor manufacturing requires ultra-clean conditions. Ceramic bearings avoid particle shedding. They maintain purity in sensitive processes.

The combination of heat resistance and mechanical strength makes these bearings versatile. They address challenges in energy, transportation, and industrial automation. Performance remains consistent under thermal cycling. This reliability drives adoption across advanced engineering fields.

Ширкат Муқаддима

Advanced Ceramics, ки 17 октябри соли 2014 таъсис ёфтааст, як корхонаи баландтехнологӣ мебошад, ки ба пажӯҳиш ва таҳия, истеҳсол, коркард, фурӯш ва хидматрасонии техникии маводҳо ва маҳсулоти нисбии сафолӣ машғул аст.. Аз замони таъсисаш дар соли 2014, ширкат ӯҳдадор шудааст, ки ба мизоҷон беҳтарин маҳсулот ва хидматҳоро пешниҳод кунад ва тавассути идоракунии пайвастаи сифат ва технологияи нав ба пешсафи саноат табдил ёфт.

Маҳсулоти мо маҳсулоти сафолини кремний карбиди, Маҳсулоти сафолии бор нитриди бор, Маҳсулоти керамикии кремний, нитриди кремний, маҳсулоти сафолини цирконий диоксиди, маҳсулоти кварц ва ғайраҳоро дар бар мегирад. Лутфан, бо мо тамос гиред.(nanotrun@ya)

пардохти Усулҳои

T/T, Western Union, PayPal, корти кредитӣ ва ғайра.

Усулҳои интиқол

Бо ҳаво, тавассути баҳр, тавассути экспресс, мувофиқи дархости муштариён.

5 FAQs of High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls

High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls: 5 FAQs

What are high-temperature resistance silicon nitride G10 precision ceramic bearing balls?
These are advanced ceramic components made from silicon nitride material graded G10. They are designed for extreme environments requiring high heat tolerance, precision, and durability. Their structure combines low density, high hardness, and resistance to wear. They replace traditional steel balls in applications where heat or corrosion limits metal performance.

How much heat can these bearing balls handle?
Silicon nitride G10 bearing balls withstand continuous temperatures up to 1200°C (2192°F). They maintain structural integrity and performance in high-heat settings. Steel bearings degrade or deform under similar conditions. The ceramic material prevents thermal expansion issues common in metals. No lubrication is needed even at peak temperatures.

Why choose silicon nitride G10 over steel bearing balls?
Ceramic balls are lighter than steel, reducing friction and energy loss. They last longer in abrasive or corrosive environments. Their non-conductive nature prevents electrical arcing in motors or generators. They resist chemical reactions steel cannot handle. Industries like aerospace, automotive, and medical devices benefit from these properties.

Where are these bearing balls commonly used?
They suit high-stress applications like jet engine components, industrial turbines, and high-speed machining tools. Chemical processing equipment uses them for corrosion resistance. Medical devices like dental drills rely on their precision and biocompatibility. Electric vehicle motors use them to avoid electrical damage.

How to maintain silicon nitride G10 bearing balls?
They require minimal maintenance compared to steel. Clean them regularly with non-abrasive solvents to remove debris. Avoid impacts during handling to prevent surface chipping. Inspect for cracks or wear during routine checks. Proper installation ensures optimal performance. Storage should be in dry, room-temperature conditions.

(High-Temperature Resistance Silicon Nitride G10 Precision Ceramic Bearing Balls)