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.

Læs mere

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

Anbefal populære produkter

Boron Carbide Ceramic Block

Hot Press Sintered Boron Carbide Ceramic Plate

Boron Carbide Ceramic Ring

Aluminiumsnitridrør

99,7% Boron Nitride Keramisk Box

Siliciumnitrid keramiske ventilkugler

Siliciumcarbid SiC keramisk pumpeaksel

Høj renhed 99,5 % borcarbid keramisk skive til neutronabsorption

Varmpresset borcarbid B4C keramisk blok til slidstyrke

Tilpassede Macor keramiske isolatorer

Grå siliciumnitrid keramisk rør

Tilpasset Zirconium Dioxide Zro2 keramisk rør

Pressureless AlN vs. Hot-pressed AlN: Which Aluminum Nitride is Right for Your Application?

Aluminum nitride is a useful material in various industrial applications due to its chemical and physical properties. However, in manufacturing, aluminum nitride is primarily separated into two types based on the sintering process: pressureless sintered aluminum nitride and hot-pressed aluminum nitride. The features and applications of these two categories differ significantly.

2026-01-16

What is Boron Carbide (B4C) Powder?

Boron carbide is one of the strongest and most durable materials available in today's environment, where performance, efficiency, and lifespan are important. It is well-known for its remarkable thermal stability, chemical inertness, and cost-effectiveness, and it has proven to be a valuable asset in a variety of industries, including manufacturing and defense.

2026-01-09

What is Kovar-to-Ceramic Brazing?

Within the Kovar family, 4J29 is the standard and recommended material for brazing high-alumina ceramics, providing a good balance of performance, cost, and dependability. 4J33/34 is a performance improvement for particular applications that require greater operating temperatures or rigorous nonmagnetic characteristics. The brazing of Kovar with alumina ceramics, which is supported by their therma

2025-12-30

What is Boron Nitride Powder?

Boron nitride powder has excellent qualities such as thermal conductivity, insulation, lubrication, high-temperature resistance, and chemical stability, making it a flexible material for dealing with a wide range of issues under extreme working circumstances in modern industry.

2025-12-26

Joining Ceramic to Metal: An Introduction to Welded Assemblies and Helium Leak Testing

Active metal brazing is the foundational method for producing dependable ceramic-to-metal junctions, with helium mass spectrometer leak detection serving as the gold standard for confirming their hermeticity. The combination of these two technologies guarantees the long-term dependability of welded components in harsh situations.

2025-12-19