Xiamen Wintrustek Advanced Materials Co., Ltd.

Specialist i keramiske dele
WINTRUSTEK er en førende producent med speciale i teknisk keramik siden 2014. Velkommen til at kontakte os, hvis du har krav.
Industriel teknisk keramik
Vores keramiske materialer inkluderer: - Aluminiumoxid - Zirconiumoxid - Berylliumoxid - Aluminiumnitrid - Bornitrid - Siliciumnitrid - Siliciumcarbid - Borcarbid
Teknisk support
WINTRUSTEK har et professionelt og passioneret team til vores kunder, der hjælper dig med at finde den bedst egnede løsning.

WINTRUSTEK er en førende producent med speciale i teknisk keramik siden 2014. I årenes løb har vi været forpligtet til forskning, design, produktion og markedsføring ved at levere en bred vifte af avancerede keramiske løsninger til industrier, der kræver enestående materialeydelse for at overvinde ekstreme arbejdsforhold.

Vores keramiske materialer omfatter:- Aluminiumoxid - Zirconiumoxid - Berylliumoxid- Aluminiumnitrid- Boron Nitride- Siliciumnitrid- Siliciumcarbid- Boroncarbide- Macor. Vores kunder vælger at samarbejde med os baseret på vores førende teknologi, profession og forpligtelse til at de brancher, vi betjener.Wintrusteks langsigtede mission er at forbedre ydeevnen af de avancerede materialer og samtidig bevare vores fokus på kundetilfredshed ved at levere produkter af højeste kvalitet og førsteklasses service.

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WINTRUSTEK leverer keramiske materialer af høj kvalitet for at imødekomme vores kunders R&D- og produktionsbehov.

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Ceramic Package

Boron Nitride (BN) vs. Aluminum Nitride (AlN): Which One is the Best Material for High Thermal Management?

Choosing between BN and AlN for high-power electronics? Discover the critical differences in thermal conductivity, dielectric properties, and machinability.

2026-06-12

Why Is LaB6 Ceramic Used in Electron Beam and Vacuum Systems?

Lanthanum hexaboride abbreviated as LaB6 ceramic is a functional ceramic material widely used in electron emission and high vacuum environment. LaB6 is typically chosen for components requiring reliable electron emission and long service life due to its low work function, strong electrical conductivity, high melting point and chemical stability under vacuum.

2026-06-05

Boron Carbide or Silicon Carbide Nozzles: Which Is Better for Abrasive Blasting?

Boron carbide and silicon carbide are two popular material choices for wear-resistant ceramic nozzles. Both materials exhibit great hardness, good wear resistance and strong chemical stability. However, they vary in hardness, density, resistance to oxidation, resistance to impact, cost of manufacture, and conditions of service. A mix of abrasive type, blasting pressure, operation frequency, nozzle

2026-05-28

Why Is Aluminum Nitride Ceramic Suitable for Power Electronics and Semiconductor Applications?

Aluminum nitride ceramics is not only a high thermal conductivity material in general. It combines thermal conduction, electrical insulation, thermal expansion matching and mechanical stability, resulting in greater heat dissipation, stable operation and long-term durability of the power electronics and semiconductor devices.

2026-05-22

Why Boron Carbide Ceramic is the Right Choice for High-Wear and Lightweight Protection Applications?

Boron carbide ceramic (B4C) is a high performance non-oxide ceramic material. It is characterized by high hardness, low density, strong wear resistance and chemical stability. These qualities make it excellent for use in ballistic protection, wear-resistant parts, sandblasting nozzles, sealing parts, and neutron absorption parts in the nuclear industry. For practical purposes boron carbide is not

2026-05-14