We supply a wide range of specialized materials designed for various industrial applications and manufacturing processes.

Material categories

Composite materials

Advanced composite materials for lightweight, high-strength applications.

Applications:

• Aerospace components

• Automotive parts

• Marine structures

• Sports equipment

Heat-resistant alloys

Specialized alloys designed for high-temperature environments.

Applications:

• Turbine components

• Furnace parts

• Engine components

• Industrial heating

Special alloys

Custom alloys with unique properties for specific applications.

Applications:

• Precision instruments

• Medical devices

• Electronic components

• Tool manufacturing

Powder materials

High-quality powders for additive manufacturing and coating.

Applications:

• 3D printing

• Powder coating

• Sintering processes

• Surface treatments

Specialty Alloys

High-performance metal alloys engineered for extreme conditions, including titanium, nickel-based superalloys, and advanced steel compositions for aerospace and industrial applications.

Temperature resistance: -200°C to +1200°C, tensile strength: 500-2000 MPa, corrosion resistance: excellent, fatigue life: >10^7 cycles

Technical specifications

Technical specifications

Technical specifications

Materials catalog

Application examples

Aerospace components, gas turbine parts, chemical processing equipment, medical implants, high-temperature furnace components

Prepregs

Pre-impregnated composite materials combining reinforcement fibers with partially cured resin systems, ready for molding into high-strength, lightweight components.

Technical specifications

Fiber volume fraction: 55-65%, glass transition temperature: 120-250°C, shelf life: 6-12 months at -18°C, cure temperature: 120-180°C

Application examples

Aircraft structures, automotive body panels, sports equipment, wind turbine blades, marine hulls

Fibers

Advanced reinforcement fibers including carbon, glass, aramid, and natural fibers for composite manufacturing and structural reinforcement applications.

Technical specifications

Tensile strength: 2-7 GPa, elastic modulus: 70-900 GPa, density: 1.4-2.2 g/cm³, elongation at break: 1-5%

Application examples

Composite reinforcement, textile manufacturing, concrete reinforcement, filtration systems, insulation materials

Resins

Advanced polymer resin systems including epoxy, polyester, vinyl ester, and thermoplastic resins for composite manufacturing and coating applications.

Viscosity: 100-5000 cP, pot life: 30 min-8 hours, cure time: 2-24 hours, service temperature: -40°C to +200°C

Application examples

Composite matrix, adhesives and bonding, protective coatings, encapsulation materials, tooling and molds

Ceramic

High-performance ceramic materials including alumina, zirconia, silicon carbide, and technical ceramics for extreme temperature and wear-resistant applications.

Operating temperature: up to 1800°C, hardness: 1200-2500 HV, thermal conductivity: 2-200 W/mK, electrical resistivity: 10^12-10^16 Ω·cm

Application examples

Cutting tools, wear-resistant components, high-temperature insulators, electronic substrates, biomedical implants

T1000 Carbon fiber composite

An advanced carbon fiber composite known for its exceptional strength-to-weight ratio and stiffness. Ideal for applications requiring high structural integrity and reduced mass.

Technical specifications

Tensile Strength: 6.5 GPa; tensile Modulus: 295 GPa; density: 1.8 g/cm³; operating temperature: -50°C to 150°C; resin system: epoxy.

Application examples

Aerospace components (fuselage, wings), high-performance automotive parts, sporting goods (bicycle frames, tennis rackets), industrial robotics.

Inconel 718 superalloy

A precipitation-hardenable nickel-chromium alloy characterized by excellent tensile, creep, and rupture strength at high temperatures, along with outstanding corrosion resistance.

Technical specifications

Composition: Ni-Cr-Fe-Nb-Mo; melting point: 1260-1336°C; yield strength (at 650°C): 827 MPa; density: 8.19 g/cm³

Application examples

Turbine blades, jet engine components, exhaust systems, industrial furnaces, power generation equipment.

Ti-6Al-4V titanium alloy

A widely used alpha-beta titanium alloy known for its excellent combination of high strength, low weight, and superior corrosion resistance. Suitable for demanding environments.

Technical specifications

Composition: Ti-6%Al-4%V; density: 4.43 g/cm³; tensile strength: 950 MPa; elongation: 10%; corrosion resistance: excellent in seawater and chloride.

Application examples

Medical implants (surgical instruments, prosthetics), aerospace structural components, marine applications, chemical processing equipment.

Nylon PA12 powder

A versatile polyamide 12 powder specifically engineered for Selective Laser Sintering (SLS) 3D printing. Offers a balance of mechanical strength, flexibility, and chemical resistance.

Technical specifications

Material Type: polyamide 12; particle size: 40-90 µm; tensile strength (SLS): 48 MPa; elongation at break: 20%; heat deflection temperature: 175°C

Application examples

Automotive prototypes, functional parts for consumer electronics, medical devices, custom jigs and fixtures, complex geometries via additive manufacturing.

SiC/SiC ceramic matrix composite

A silicon carbide (SiC) ceramic matrix composite offering exceptional high-temperature strength, stiffness, and fracture toughness, far exceeding monolithic ceramics.

Technical specifications

Matrix: silicon carbide; reinforcement: SiC fibers; operating temperature: up to 1600°C; density: 2.8-3.2 g/cm³; thermal conductivity: high.

Application examples

High-temperature engine components, thermal protection systems for spacecraft, brake discs for high-performance vehicles, industrial furnace linings.

Material testing

We provide extensive testing services to help you select the right materials for your specific applications and ensure optimal performance.

• Material composition analysis

• Mechanical property testing

• Thermal analysis

• Corrosion resistance testing

• Fatigue testing

• Impact testing

• Comparative material studies

Comprehensive material testing

Don't see the material you need? We work with leading material scientists and manufacturers to develop custom solutions tailored to your specific requirements.

Custom material solutions

Custom alloy development

Develop specialized alloys with unique properties for your application

Composite engineering

Design composite materials optimized for specific performance criteria

Material modification

Modify existing materials to meet your exact specifications

Ready to find your perfect material?

Contact our materials experts to discuss your requirements and discover the best materials for your manufacturing applications.

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