先进陶瓷专为高性能应用而设计,这些应用需要精确的尺寸控制、热稳定性、电绝缘性以及耐磨性和耐腐蚀性。它们广泛应用于传统材料无法提供可靠性能的环境中。
我们提供种类齐全的先进技术陶瓷材料,并结合精密加工能力,确保为您的特定应用需求提供最佳的材料解决方案。

不确定哪种陶瓷材料适合您的应用?了解更多关于技术陶瓷的信息,查看我们的陶瓷材料对比图表,或联系我们,我们非常乐意为您提供帮助。

从真空到极端温度,我们提供定制化的陶瓷加工解决方案,确保精准的公差和可靠的性能。
是的。我们使用适用于半导体应用的高纯度陶瓷材料。材料选择和加工过程都经过严格控制,以最大程度地减少污染,并确保在严苛环境下也能可靠运行。
Biocompatibility is ensured through careful material selection and strict quality control processes. We work with materials such as alumina and zirconia, which are known for their excellent chemical stability and compatibility in biological environments.Our manufacturing processes are controlled in accordance with quality systems such as ISO 13485 to ensure consistency, traceability, and suitability for medical applications.
抗热冲击性能取决于导热系数、热膨胀系数和机械强度等多种性能的综合作用。在常见的先进陶瓷材料中,氮化硅和氮化铝等材料由于其优异的热性能而具有出色的抗热冲击性能。Macor 材料也具有良好的抗热冲击性能,适用于需要良好加工性和适度温度变化的应用。最合适的材料取决于具体的温度梯度和应用条件。
Macor is a machinable glass-ceramic made from fluorophlogopite mica crystals embedded in a borosilicate glass matrix. This composition gives it a rare
combination of metal-like machinability, excellent electrical insulation, low thermal conductivity, and stability up to 1000°C (no load) while maintaining very tight tolerances.
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Room 306, Gate B, Unit 1, Block 2 South, No. 1 Yile Road, Songshan Lake, Dongguan City, Guangdong Province, China(523808)