Superalloys – Heat Resistant High Strength Materials for Extreme Environments Key Material Advantages Excellent High-Temperature Strength: Retains mechanical integrity and creep resistance at temperatures exceeding 700°C, ideal for turbine, aerospace, and power generation components. Outstanding Oxidation and Corrosion Resistance: Forms stable protective oxide layers in extreme thermal, chemical, and marine environments, ensuring long-term performance. Long Service Life: Engineered for thermal fatigue resistance and structural stability during prolonged high-temperature exposure. Superior Structural Reliability: Minimal deformation or degradation under cyclical, high-stress, or high-pressure operating conditions. Process Adaptability: Compatible with casting, forging, welding, and complex precision machining, enabling reliable manufacturing of critical components.   Common Alloy Series Nickel-Based Superalloys / High Temperature Alloys: Inconel 625, Inconel 718 – High-temperature, corrosion-resistant alloys for aerospace and energy industries Hastelloy C-22 – Excellent chemical resistance for industrial and marine applications Waspaloy – High-strength alloy for extreme temperature components   Iron-Nickel-Based High Temperature Alloys: Incoloy 800, Incoloy 825 – Resistant to oxidation and chemical attack in industrial processes   Cobalt-Based Superalloys / High Temperature Alloys: Haynes 188, Stellite 6 – High wear resistance, temperature strength, and chemical stability   Product Forms Available Bars, Plates, Pipes, Strips Forgings: Rings, shafts, discs, customized shapes Custom Machined Parts: According to drawings and specifications Heat Treatment & Surface Finishing: Anodizing, sandblasting, precision polishing, coating, and other treatments   Applications Aerospace & Aviation: Turbine blades, engine components, structural assemblies Power Generation: Gas turbines, steam turbines, heat exchangers Chemical Processing: Acid-resistant vessels, pumps, heat-resistant fasteners Marine Engineering: High-temperature valves, propulsion components Metal Processing: Furnace parts, crucibles, high-temp tooling fixtures   Why Choose Us Support for both small-batch customization and bulk supply Full-process services including forging, machining, and heat treatment Drawing-based production with support for third-party inspection and certification Fast export handling with full support for international logistics and customs clearance   Contact us for tailored solutions and competitive offers！

Alliages de nickel et alliages fer-nickel-métaux hautes performances pour des environnements extrêmes Avantages clés des matériaux Résistance à haute température: Les alliages à base de nickel conservent leur intégrité structurelle à des températures extrêmement élevées. Faible dilatation thermique: l'alliage fer-nickel assure la précision et la stabilité dimensionnelle. Résistance à la corrosion et à l'oxydation: performances fiables dans les environnements chimiques, marins et industriels. Propriétés mécaniques durables: durable sous stress, fatigue et vibrations. Conception personnalisable: prend en charge des géométries spéciales, des finitions de surface et des niveaux d'alliage. Grades ordinaires Alliage de nickel: Série Inconel: Inconel 600, 625, 718-Superalliages résistants à la corrosion à haute température pour l'industrie aérospatiale et énergétique Série Hastelloy: Hastelloy C-22, C-276-Excellente résistance chimique pour les applications industrielles et marines Monel: Monel 400, K500-alliage résistant à la corrosion pour les environnements marins et acides Grade de nickel pur: Nickel 200, 201-Haute conductivité électrique et thermique pour les composants électroniques et industriels Alliage fer-nickel: Invar (36% Ni): Faible dilatation thermique pour instruments de précision, dispositifs optiques et structures aérospatiales Kovar (29% Ni, 17 Co): Dilatation thermique adaptée des joints verre-métal en électronique et semi-conducteurs Alliage 42: dilatation contrôlée pour l'électronique industrielle et l'assemblage de précision Formulaire de produit disponible Barres, tôles, tubes, bandes Pièces forgées: anneau, arbre, disque, forme personnalisée Pièces usinées personnalisées: selon les dessins et les spécifications Traitement thermique et traitement de surface: anodisation, sablage, polissage de précision, revêtement et autres traitements Applications Aérospatiale: composants de turbine, composants de moteur, composants structurels Chimie et marine: réacteurs, canalisations, pompes, composants résistants à l'eau de mer Électronique: tubes à vide, emballages semi-conducteurs, pièces de capteurs Production d’électricité et d’énergie: chaudières, échangeurs de chaleur et équipements de processus industriels Machines de précision: instruments de mesure, emballages de semi-conducteurs, composants satellites Pourquoi nous choisir Prise en charge de la personnalisation de petites quantités et de l'approvisionnement en vrac Forgeage, usinage, traitement thermique et autres services de processus complets Production basée sur les dessins, soutenant l'inspection et la certification de tiers Traitement rapide des exportations avec un soutien complet à la logistique internationale et au dédouanement Contactez-nous pour une solution sur mesure et un devis compétitif!

Titanium Alloys – High-Performance Metals for Demanding Applications Description Key Material Advantages High Strength-to-Weight Ratio: Delivers strength comparable to steel while being significantly lighter, enabling weight reduction, improved fuel efficiency, and optimized structural design. Excellent Corrosion Resistance: Provides superior resistance in acidic, alkaline, marine, and high-temperature gas environments, ensuring long service life. Thermal Stability: Retains mechanical properties during long-term exposure to elevated temperatures, widely applied in jet engines, turbines, and other high-heat equipment. Superior Biocompatibility: Non-toxic, non-allergenic, and non-magnetic, making titanium alloys the preferred material for surgical implants, dental devices, and medical instruments. Excellent Weldability and Machinability: Ideal for forging, turning, milling, precision machining, and custom component manufacturing.   Common Grades Commercially Pure Titanium: TA1, TA2, Grade 1, Grade 2 – Excellent corrosion resistance, good ductility, widely used in chemical processing and medical applications. General-Purpose Titanium Alloys: TC4 (Ti-6Al-4V), Ti-3Al-2.5V – High strength, corrosion resistance, and processability, the most commonly used engineering grades. High-Temperature Titanium Alloys: Ti-6Al-2Sn-4Zr-6Mo, Ti-6242, Ti-5553 – Designed for long-term service at elevated temperatures with superior creep resistance, applied in aerospace engines and gas turbines.   Product Forms Available Bars, Plates, Pipes, Strips Forgings: Rings, shafts, discs, customized shapes Custom Machined Parts: According to drawings and specifications Heat Treatment & Surface Finishing: Anodizing, sandblasting, precision polishing, coating, and other treatments   Applications Aerospace & Aviation: Airframes, engine parts, landing gear Medical: Implants, prosthetics, surgical tools Chemical Industry: Heat exchangers, reactors, piping Marine: Ship parts, propeller shafts, desalination systems Energy: Turbine blades, nuclear components, fuel cells Automotive & Industrial: Engine valves, exhausts, lightweight parts   Why Choose Us Support for both small-batch customization and bulk supply Full-process services including forging, machining, and heat treatment Drawing-based production with support for third-party inspection and certification Fast export handling with full support for international logistics and customs clearance   Contact us for tailored solutions and competitive offers!