Precision ceramic components and their applications

Ceramics offer numerous advantages in a variety of applications across multiple markets. In vehicle and automotive engineering, electronics, energy and environmental sectors, as well as in equipment and mechanical engineering, precision ceramics play a crucial role in enhancing safety, cost efficiency, and comfort in vehicles and automotive engineering. Lu Hai Technology will recommend a reasonable and cost-effective production method based on the application field, material geometric characteristics, and quantity of the customer's products.

Features and Advantages of Precision Ceramic Structural Components

High mechanical strength

-- High tensile strength and impact resistance

Excellent abrasion resistance

Excellent thermal conductivity

Low thermal expansion

Thermal shock resistance properties

Product Images

High Temperature Co-Fired Ceramic (HTCC) Technology

What is HTCC technology?

Utilizing multilayer ceramic substrate technology, as these multilayer substrates are co-sintered at 1600°C using alumina as the insulating material and conductive materials (Mo, W, Mo-Mn), they are classified as High Temperature Co-Sintered Ceramics (HTCC) to differentiate them from the later-developed Low Temperature Co-Sintered Ceramics.

HTCC, commonly using metals such as tungsten, molybdenum, and manganese with high melting points, is printed onto alumina/AlN/mullite (relatively less) ceramic blanks according to circuit design requirements. Subsequently, these are stacked in layers and sintered into a single unit at temperatures ranging from 1650 to 1850°C.