Materials
Ceramics
Machinable ceramics
Glass
Applications
Resources
About Us
Advanced Ceramics
HomeMaterialsCeramics
IndustryInsulationThermal conductivity

Advanced Ceramics

Advanced ceramics offer exceptional hardness, thermal stability, and electrical insulation. Widely used in semiconductor, aerospace, and precision engineering applications.

Contact us

Overview

Advanced ceramic materials are widely used in applications where conventional materials struggle to meet performance requirements. Their high hardness, thermal stability, and electrical insulation make them suitable for demanding environments such as semiconductor, aerospace, and precision equipment.

In addition to material supply, we focus on precision machining of technical ceramics, including complex geometries and tight-tolerance components. By combining material knowledge with machining experience, we help ensure each part meets its functional and dimensional requirements.

Materials Categories

Ceramics Machinable ceramics Glass

Interactive Materials Chart

Not sure which ceramic material is right for your application? Learn more about technical ceramics, check out our ceramic materials comparison chart, or contact us and we’ll be more than happy to help out.

Services

Jundro works with technical ceramics and focuses on machining parts that require tight tolerances and reliable performance

  • Flexible, customizable components
  • Curved irregular,shape
  • Polishing and coating

FAQS

What are advanced ceramics used for?
Advanced ceramics are used in applications that require high temperature resistance, wear resistance, and electrical insulation. Common industries include semiconductor equipment, aerospace, medical devices, and precision engineering.
How are advanced ceramics different from traditional ceramics?
Unlike traditional ceramics, advanced ceramics are engineered for performance. They offer higher strength, better thermal stability, and more consistent material properties, making them suitable for demanding industrial applications.
Which advanced ceramic material should I choose?
Material selection depends on your application requirements, such as temperature, mechanical load, electrical properties, and environment. Common options include alumina, zirconia, and aluminum nitride.
Are advanced ceramics difficult to machine?
Yes, most advanced ceramics are hard and brittle, which makes machining more challenging than metals or plastics. Specialized tools and experience are required to achieve tight tolerances and avoid cracking or chipping.
Can advanced ceramics be machined into complex shapes?
Yes, with the right equipment and experience, advanced ceramics can be machined into complex geometries, including tight-tolerance components used in optical, semiconductor, and aerospace applications.

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.

    Contact Form

    Ac ne quis a nobis hoc ita dici forte miretur, quod alia quaedam in hoc facultas sit ingeni, neque haec dicendi ratio aut disciplina, ne nos quidem huic uni studio penitus umquam dediti fuimus. Etenim omnes artes.