Expert Knowledge for High-Performance Ceramic Design

Navigating the complexities of advanced ceramics requires accurate data and proven engineering rules. Our Resources center provides the tools you need to optimize your designs, from material datasheets to comprehensive design guides.

Technical Downloads

Equip your design team with our verified technical documentation:

Material Datasheets: Comparative properties of Alumina (92%-99.8%) and Zirconia (Y-TZP).[ 📥 Download ]

Ceramic Design Guide (PDF): Essential rules for radii, wall thickness, and tolerances.[ 📥 Download ]

Metallization Guidelines: Best practices for brazing and soldering ceramic-to-metal joints.[ 📥 Download ]

Standard Product Catalog: A complete list of our thermostat and sensor components.[ 📥 Download ]

Engineering Blog: The Ceramic Insight

Our blog is written by engineers, for engineers. We share technical breakthroughs, material science updates, and real-world failure analysis.

1: "Metal vs. Ceramics: When to Make the Switch?"

Many engineers struggle with components failing due to heat or wear. In this post, we analyze the TCO (Total Cost of Ownership) of switching from Stainless Steel to Zirconia in high-friction environments.

2: "Designing for CIM: 5 Tips for Complex Geometries"

Ceramic Injection Molding (CIM) offers incredible freedom, but it has its limits. Learn how to optimize gate locations and cooling channels to prevent warping in complex zirconia parts.

3: "The Science of Hermetic Sealing"

How do we achieve a leak rate of less than $1 \times 10^{-10} \text{ Pa}\cdot\text{m}^3/\text{s}$? We dive deep into the Mo-Mn metallization process and the importance of CTE matching.

FAQ: Technical Support

Q: Can you machine ceramic parts after they are sintered?

A: Yes, we use precision diamond grinding to achieve micron-level tolerances after sintering.

Q: What is your typical lead time for custom prototypes?

A: For most projects, we can deliver functional prototypes within 25–35 business days.