Insulation and Sealing Materials
Glass Fiber Reinforced Polymer (FPR) Rebar
As a high-performance alternative to traditional steel, FRP Rebar delivers exceptional tensile strength, lightweight structure, and total corrosion resistance — ideal for bridges, tunnels, marine, and industrial structures.
Key Features:
Corrosion and Rust Proof: Perfect for coastal and chemical environments
High Tensile Strength: 509-1900 MPa for superior reinforcement
Lightweight and Non-Conductive: 1/4 the weight of steel, easy to transport and install
Thermal Stability: Maintains strength from -70°C to +120°C
Cost-Effective Durability: Long lifespan with minimal maintenance
Core Specifications:
Diameter: 3–40 mm (customizable)
Tensile Strength: 509-1900 MPa
Density: 2.1-2.2 g/cm³
Thermal Expansion Coefficient: 6–10 ×10⁻⁶/°C
Applications:
Bridge decks • Marine structures • Parking garages • Tunnels • Foundations • Concrete reinforcement in corrosive environments
Glass Fibre Joint Tape
Fiber glass Joint Tape is designed for drywall, plasterboard, and wall joint reinforcement, providing excellent crack resistance and seamless surface finishing. With high tensile strength and alkali resistance, it ensures long-term durability in both residential and industrial applications.
Key Features:
High Strength and Crack Resistance: Reinforces wall joints and prevents surface cracking
Alkali Resistant: Maintains stability during plastering and painting
Smooth Surface: Creates clean and seamless wall finishes
Easy to Apply: Self-adhesive and compatible with multiple substrates
Durable & Lightweight: Ideal for long-term reinforcement solutions
Core Specifications:
Material: 100% Fiberglass Yarn
Mesh Size: 8mm*8mm or 9mm*9mm
Weight: 50-75 g/m² (customizable)
Width: 30-250 mm
Length: 20–150 m per roll
Color: White / Yellow / Blue (customizable)
Applications:
Drywall joint reinforcement • Ceiling repair • Crack prevention in plasterboard • Construction finishing works
Glass Fibre Coated Fabric - Aluminium / Graphite / Silicone / Vermiculite
Heat and Fire Protection Series
Providing a full range of high-temperature coated fiberglass fabrics designed for industrial insulation, welding protection, and thermal shielding. This series includes Silicone Coated Fiberglass Fabric, Vermiculite Coated Fabric, Graphite Coated Fabric, and Aluminized/Aluminum Foil Coated Fabric, offering reliable performance from medium to extreme temperatures.
Product Specifications
Silicone Coated Fiberglass Fabric
Temperature Resistance: -50°C to 260°C (short-term 550°C)
Coating: Single / Double Silicone
Weight: 200–1500 g/m²
Thickness: 0.15–1.5 mm
Width: 1000–1500 mm
Vermiculite Coated Fiberglass Fabric
Temperature Resistance: Up to 850°C
Weight: 600–1000 g/m²
Thickness: 0.7–1.5 mm
Width: 1000 mm / 1270 mm
Graphite Coated Fiberglass Fabric
Temperature Resistance: Up to 700°C
Weight: 500–1200 g/m²
Thickness: 0.4–1.2 mm
Width: 1000–1500 mm
Aluminized / Aluminum Foil Coated Fabric
Temperature Resistance: Up to 550°C
Foil Type: Aluminum Foil / Aluminized Film (PET/PE)
Weight: 200–600 g/m²
Thickness: 0.18–1.0 mm
Width: 1000–1500 mm
Key Advantages:
Excellent thermal insulation and radiant heat reflection
Enhanced abrasion, chemical, and flame resistance
Suitable for complex industrial environments
Applications:
Fire blankets and welding protection/ Expansion joints and flexible connections/ Heat shields, insulation covers, furnace protection/ Pipeline safety wrapping/ Industrial curtains and thermal barriers/ High-temperature protective pads and equipment covers
Fibreglass Coated Fabrics- Neoprene / PVC / PTFE Series
Fibre glass Coated Fabrics combine high-strength fibre glass base cloth with three specialized coating technologies—Neoprene, PVC, and PTFE—offering superior chemical resistance, weather durability and industrial-grade protection.
Designed for corrosive environments, mechanical protection, and long-term sealing applications.
Product Specifications
Coating Options and Performance
Neoprene Coated Fiberglass
Weight: 300–1500 g/m²
Thickness: 0.25–2.0 mm
Temperature: -20°C to 180°C
Key Features:
Oil-resistant, weather-resistant, flexible, good flame retardancy
PVC Coated Fiberglass
Weight: 250–1200 g/m²
Thickness: 0.20–1.5 mm
Temperature: -10°C to 70°C
Key Features:
Waterproof, abrasion-resistant, economical, strong mechanical protection
PTFE Coated Fiberglass
Weight: 155–2500 g/m²
Thickness: 0.08–1.5 mm
Temperature: -70°C to 320°C
Features: Excellent chemical resistance, non-stick, UV-resistant, high temperature stability
Base Fabric: E-Glass / C-Glass (customizable)
Width: 1000–2000 mm
Key Features:
Excellent resistance to corrosion, chemicals, oils and solvents
Waterproof, flame retardant & weather-resistant
Multiple coating options for different industrial environments
Typical Applications:
Chemical and refinery pipeline protection/ Industrial protective covers and sealing fabrics/ Expansion joints and compensators/ Waterproof / anti-corrosion barriers/ Duct insulation and flexible connections/ Machinery protection in harsh environments
Glass Fibre Knitted Tape
Fibre glass Knitted Tape is a high-performance sealing and insulation material designed for applications that demand flexibility, continuous high-temperature resistance, and excellent thermal cushioning. Constructed from texturized fiber glass yarns in a knitted loop structure, this tape offers superior softness, elasticity, and adaptability—making it ideal for curved surfaces, irregular shapes, and high-temperature environments such as fireplace doors, exhaust systems, and industrial heating equipment.
Material Features:
Knitted Loop Structure – Ensures excellent elasticity and flexibility
Texturized Fiber glass Yarn – Provides bulk, softness, and thermal resilience
High-Temperature Resistance – Suitable for continuous use in demanding thermal conditions
Exceptional Thermal Insulation and Cushioning – Ideal for heat sealing and protective applications
Abrasion and Chemical Resistance – Long-lasting performance under mechanical and environmental stress
Easy to Install – Conforms easily to complex or curved surfaces without fraying or cracking
Key Advantages:
Ideal for fireplace door seals, pipe insulation, expansion joints, furnace linings, and exhaust wraps
Offers reliable thermal protection, fire resistance, and sealing performance
Lightweight, durable, and resistant to aging and most chemicals
Available in customized widths, thicknesses, densities, and roll lengths
Product Specifications:
Material: Texturized Fiberglass Yarn
Structure: Knitted Loop
Max Service Temp: Up to 1000°F (540°C) – continuous use
Thickness: 1.5 mm – 3.0 mm (customizable)
Width: 10 mm – 100 mm (custom sizes available)
Roll Length: Standard 30 meters (custom lengths optional)
Color: White/Black
Thermal Conductivity: Low
Applications:
Fireplace doors, industrial seals, thermal insulation, high-temperature wrapping
Performance Characteristics:
Thermal Insulation – Excellent heat retention and thermal cushioning
Flexibility and Conformability – Easily wraps around curves and irregular shapes
Fire Resistance – Non-flammable, suitable for high-temperature sealing
Durability – Resists abrasion, vibration, and thermal cycling
Soft and Non-Abrasive – Safe to use on polished or delicate surfaces
Glass Fiber Fabric Woven
Discover the advanced versatility of Glass fibre Woven Fabrics, available in Plain, Twill, Satin, and Multi axial weaves to meet the specific needs of modern composite engineering.
From structural reinforcement to precision components, delivered performance, consistency, and reliability you can count on.
Key Features:
High Strength and Dimensional Stability: Excellent tensile properties with minimal deformation
Temperature Resistance: Performs reliably between -200°C and +550°C
Insulation and Corrosion Resistance: Outstanding electrical, thermal, and chemical stability
Multiple Weave Options: Plain / Twill / Satin / Multi axial — for balanced strength and flexibility
Customizable Specs: Weight, width, and weave structure fully customizable
Core Specifications:
Weight: 200–800 g/m² (customizable)
Width: 50–150 cm (customizable)
Tensile Strength: ≥2500 MPa
Applications:
Used in construction reinforcement, marine structures, automotive and aerospace parts, wind turbine blades, and electrical insulation systems.
Basalt Fiber Mesh and Geo-Grid
Basalt Mesh and Geo-Grid are made from continuous basalt fibres, offering excellent tensile strength, alkali resistance, and corrosion resistance for long-term structural reinforcement in construction and geotechnical applications. With multiple mesh sizes and wide width options, they are suitable for various engineering and installation requirements.
Product Specifications:
Weight (g/m²): 110 / 160 / 220 / 370
Mesh Size (mm): 5×5 / 10×10 / 25×25 / 50×50
Thickness (mm):
10×10: 0.3–0.4
25×25: 0.8–0.9
50×50: 0.8–1.0
Width (mm): 1000–4000
Key Advantages:
High tensile strength and structural stability
Excellent resistance to alkali, corrosion, and aging
Lightweight and easy to install
Suitable for large-area reinforcement projects
Typical Applications
Building and bridge strengthening, wall crack control, road and sub grade reinforcement, tunnels and underground works, geotechnical structures
Basalt Fibre Twisted Yarn
Basalt Fibre Twisted Yarn is produced from continuous basalt filaments with controlled twisting, offering excellent heat resistance, tensile strength, electrical insulation, and radiation resistance. It is widely used in high-temperature and industrial textile applications.
Product Specifications:
Filament Diameter: 6 μm / 7 μm / 9 μm / 11 μm / 13 μm
Linear Density (tex):
16.5 / 33 / 50 / 66 – 200(6 μm)
11 / 22 / 44 / 66 / 88 – 600(7 μm)
33 / 66 / 100 – 600(9 μm)
100 / 200 / 300 – 600(11 μm)
132 / 264 / 396 – 660(13 μm)
Twist Level (TPM): 20 – 300 twists per meter
Filament Structure: Continuous twisted basalt fibre yarn
Key Advantages:
Outstanding heat resistance (suitable for high-temperature environments)
High tensile strength and dimensional stability
Excellent electrical insulation and radiation resistance
Stable twisting structure for improved processing performance
Typical Applications
High-temperature fabrics, thermal insulation textiles, electrical insulation, radiation-resistant fabrics, industrial woven products
Basalt Fibre Tape
Basalt Fiber Tape is produced from continuous basalt fibers, offering excellent heat resistance, tensile strength, and chemical stability. It is widely used for thermal insulation, fire protection, and structural reinforcement in demanding industrial environments.
Product Specifications:
Width: 25 mm / 50 mm / 75 mm / 100 mm
Weight Range: 200–2000 g/m²
Roll Length: 30 m / 50 m / 100 m
Key Advantages:
High temperature and fire resistance
Excellent tensile strength and dimensional stability
Resistant to chemicals, corrosion, and aging
Flexible, easy to wrap, and suitable for continuous installation
Typical Applications:
Thermal insulation · Fire protection wrapping · Industrial sealing · Cable and pipe protection · Composite reinforcement
Basalt Fibre Chopped Strands
Basalt Fibre Chopped Strands are produced by cutting continuous basalt fibres into uniform lengths, providing good dispersion and reliable reinforcement for composite and industrial applications.Chopped lengths range from 3 mm to 90 mm, suitable for thermoplastic, thermoset, and inorganic systems.
The product features low moisture content (≤0.10%), with sizing content controlled between ≤0.35% and ≤0.85% by specification, ensuring stable processing and good resin compatibility.
Product Specifications:
Chopped Length (mm): 3 / 4.5 / 6 / 12 / 18 / 25 / 30 / 50 / 63 / 90
Moisture Content: ≤0.10% (selected grades up to ≤8.00%)
Sizing Content: ≤0.35% – ≤0.85% (by specification)
Form: Basalt Fiber Chopped Strands
Key Advantages:
Excellent heat and chemical resistance
Uniform fiber length with good dispersion
Compatible with various resin systems
Natural inorganic fiber with stable performance
Typical Applications:
Thermoplastic composites, thermoset composites, concrete reinforcement, friction materials, industrial molding compounds, construction and infrastructure
Basalt Fibre Multi-Axial Fabric
Basalt Fibre Multi-Axial Fabric is constructed by stitching multiple layers of basalt fibers oriented at different angles (0° / 90° / ±45°), providing balanced load distribution and stable mechanical performance under complex stress conditions
Product Specifications:
Structure Type: Bi-Axial / Tri-Axial
Weight (g/m²): 450 / 650 / 980
Fiber Orientation (g/m²):
0° / 90° (e.g. 220 / 220, 338 / 311)
0° / +45° / −45° (e.g. 520 / 220 / 220)
Width (mm): 1270 / 2540
Key Advantages:
Multi-directional load-bearing capability
High strength, stiffness, and fatigue resistance
Excellent heat, corrosion, and environmental resistance
Suitable for large and high-performance composite parts
Typical Applications
Wind energy components, construction and bridge strengthening, marine and offshore structures, transportation, industrial composites, structural laminates
Aramid Para Pulp
Para Aramid Pulp is a micro-fibrillated aramid reinforcement designed for high-performance friction materials, sealing components, and industrial composites. With superior thermal resistance, stable friction behavior, and excellent resin/rubber bonding, it enhances durability and structural integrity across demanding applications.
Technical Specifications:
Codes: AF200/220, 230, 240, 260, 270, 280
C.S.F. (ml): 200–670 depending on grade
Specific Surface Area: 5–15 m²/g
Moisture Content: 4–7% (AF200/280: 55–75%)
Average Fiber Length: 0.5–1.4 mm
Thermal Decomposition Temperature: ~540°C
Key Features:
Outstanding heat resistance & friction stability
Strong bonding in resin and rubber systems
Excellent dispersion and consistent formulation behaviour
Chemical resistance and dimensional stability
Typical Applications
Brake pads • Clutch linings • Rubber reinforcement • Seals and gaskets • Industrial composites • Friction materials
Aramid Fiber Filament Yarn
Built for extreme performance, Hitex aramid filament yarn delivers outstanding strength, low elongation, and excellent thermal and abrasion resistance. With ST / HS / HM series options, it offers tailored mechanical properties to meet diverse high-performance engineering needs.
Key Specifications:
Breaking Tenacity (cN/dtex):
ST (<600D / 600D–3000D / 600D–840D / 1000D–1500D): 18.0 – 20.5
HS (840D–1500D): 22.5 – 23.5
HM (1000D–3000D): 18.0
Elongation at Break (%):
ST: 3.3 – 3.5 ± 1.0
HS: ≥3.0
HM: ≤3.0
Modulus (GPa):
ST: 85 – 90 ± 20
HS: 95 ± 15
HM: ≥110
Typical Applications
Cut-resistant fabrics • Protective gloves • Safety ropes • Fire-resistant textiles • Composites reinforcement • Industrial filtration • Cables and hoses
Aramid Honeycomb
Aramid Honeycomb delivers exceptional mechanical performance with ultra-low density, making it ideal for aerospace-grade lightweight structural applications Its excellent compressive strength, shear properties, and high-temperature stability ensure long-lasting performance under demanding conditions.
Key Structure:
STRUCTURE | Ultra-Light
Core Material: Meta-aramid fiber
Density range:
AF209M-1.83:29–144 kg/m³
AF209M-2.75:32–128 kg/m³
AF209M-OX-2.75:29–64 kg/m³
AF209M-3.67:32 kg/m³
Cell structure:
Hexagonal honeycomb
Form: Sheets / Blocks / Custom sizes
PERFORMANCE | Strength and Stability Bare Honeycomb Compressive Strength (ave/min)
AF209M-1.83:0.59–13.31 MPa
AF209M-2.75:0.86–8.72 MPa
AF209M-OX-2.75:0.61–3.59 MPa
AF209M-3.67:0.89 MPa
L-Direction Shear Strength / Modulus
AF209M-1.83:0.52–3.23 MPa / 26–123 MPa
AF209M-2.75:0.62–2.86 MPa / 32–88 MPa
AF209M-OX-2.75:0.31–0.97 MPa / 14–29 MPa
AF209M-3.67:0.64 MPa / 29 MPa
W-Direction Shear Strength / Modulus
AF209M-1.83:0.31–2.05 MPa / 13–77 MPa
AF209M-2.75:0.45–2.26 MPa / 16–65 MPa
AF209M-OX-2.75:0.38–1.04 MPa / 29–55 MPa
AF209M-3.67:0.45 MPa / 24 MPa
Key Advantages
Extremely lightweight with high specific strength
Excellent compressive and shear performance
Heat-resistant and fatigue-resistant
Ideal for sandwich composite structures
APPLICATION | Aerospace and Industry Aerospace panels / Marine structures / Train interiors / Automotive composites / UAV shells / Sports equipment / Radomes / Energy equipment
Aramid Prepreg
Aramid Prepreg is manufactured by impregnating high-performance para-aramid fibers with advanced resin systems, offering excellent impact resistance, fatigue durability, and flame retardancy for high-safety composite applications.
Product Specifications
Fibre Type: Para-Aramid Fibre
Resin System: Epoxy / Phenolic (optional)
Fibre Areal Weight: 50 – 450 g/m²
Resin Content: 30% – 45%
Single Ply Thickness: 0.10 – 0.35 mm
Fabric Structure: Unidirectional / Plain / Twill
Curing Method: Hot Press / Vacuum Bag / Autoclave
Storage Condition: ≤ –18°C (Frozen Storage)
Core Advantages
Excellent impact and tear resistance Outstanding flame retardant performance High dimensional stability and inter laminar bonding Designed for high-safety composite structures
Typical Applications
Ballistic panels, safety helmets, aerospace components, rail interior parts, motorsport and sports protection gear, industrial protective composites
Aramid Steel Wire Sewing Thread
Aramid and Steel Wire Sewing Thread is manufactured by twisting high-strength aramid filament yarn with 316L stainless steel micro-wires, combining excellent heat resistance, cut resistance, and mechanical durability for extreme industrial sewing applications.
Key Specifications:
Material: 1000D / 400D Aramid + 316L Stainless Steel Micro-wire (6 / 8 / 10 strands)
Thread Diameter: approx. 0.28 – 0.38 mm
Breaking Strength: approx. 145 – 226 N
Package: ~1900 – 2570 m per roll (500 g)
Temperature Resistance:
Surface ≥ 260°C
Core ≥ 800°C
Core Advantages
Excellent heat and flame resistance
High tensile strength and stitch stability
Designed for harsh and high-load environments
Custom specifications available
Typical Applications
Fire-resistant garments, thermal insulation sewing, filter bags, industrial sealing, heat-resistant fabrics, welding protection products
Aramid Para-Felt
Para-Aramid Felt — Lightweight Insulation · Impact Absorption · Heat Resistance
Para-Aramid Felt is a non-woven material engineered for thermal insulation, cushioning, and protective applications. With a stable structure and excellent heat resistance, it is suitable for demanding industrial and protective environments.
Key Specifications
Bulk Density: 120 – 180 kg/m³
Areal Density: 300 – 1000 g/m²
Thickness: 1 – 25 mm
Roll Width: 50 – 2200 mm
Roll Length: 5000 mm
Key Advantages
Lightweight structure · Excellent thermal insulation · Good impact absorption · Stable performance at elevated temperatures · Easy cutting and processing
Typical Applications (Horizontal Layout)
Thermal insulation · Impact cushioning · Fire protection layers · Industrial sealing · Protective equipment · Composite core materials
Aramid Para-Staple
Para Aramid Staple Fibre — High Strength · Heat Resistance · Reliable ReinforcementHitex Para Aramid Staple Fiber is engineered for high-performance reinforcement applications requiring excellent tensile strength, thermal stability, and durability. It is widely used in friction materials, sealing products, and composite reinforcement systems.
Key Specifications
Density: 1.47 g/cm³
Color: Yellow / Black
Fiber Length: 38 / 76 mm
Tensile Strength: 19.4 – 21 MPa
Packing: 100 kg / bag
Key Advantages
High tensile strength · Excellent heat resistance · Good dispersion performance · Chemical stability · Long service life
Typical Applications
Friction materials · Sealing materials · Rubber reinforcement · Composite fillers · Industrial insulation · Protective materials
Aramid Fiber UD Fabric
Unidirectional Aramid Fibre Fabric — Directional Strength · Lightweight · High Efficiency
Unidirectional Aramid Fibre Fabric is designed to deliver maximum strength along a single load direction. With aligned fibers and minimal crimp, it provides excellent tensile performance and material efficiency for high-performance composite structures.
Key Specifications
Yarn: 3000D
Fabric Weight: 280 / 350 / 415 g/m²
Thickness: 0.19 – 0.29 mm
Standard Width: 1000 mm
Roll Length: 50 m
Customization: Weight and dimensions available
Key Advantages High directional tensile strength · Lightweight reinforcement · Efficient load transfer · Excellent impact and fatigue resistance
Typical Applications (Horizontal Layout)
Structural reinforcement · Ballistic panels · Aerospace components · Automotive composites · UAV structures · Protective laminates
Aramid Chopped Fiber
Aramid Chopped Fibre — High Strength · Heat Resistant · Reinforcement Grade
Aramid Chopped Fibre provides excellent reinforcement performance for thermoplastics, thermoset resins, friction materials, sealing products, and high-strength composite parts. Its stable fiber length and high-temperature durability ensure reliable mechanical enhancement.
Key Specifications
Filament Diameter: 12 μm
Density: 1.44 g/cm³
Available Fibre Lengths: 3 mm / 6 mm / 9 mm / 12 mm
Packing: 20 kg/bag Grades: AF201CS-3 / CS-6 / CS-9 / CS-12
Main Features
High tensile strength and lightweight
Excellent thermal stability and chemical resistance
Improves resin bonding strength
Enhances impact, wear, and fatigue performance
Typical Applications (Horizontal Layout)
Friction materials · Rubber parts · Engineering plastics · Composite reinforcement · Adhesives · Sealing products · High-performance molded parts
Carbon Fiber Unidirectional Fabric
Carbon Fibre Unidirectional Fabric — Precision Strength for High-Performance ApplicationsKey Features
Excellent tensile strength for lightweight structural reinforcement
Stable fibre alignment ensuring maximum load-bearing efficiency
Ideal for aerospace, UAVs, sporting goods, and wind energy
Core Specifications
Fiber Types: 3K / 6K / 12K / 24K
Grades: T300 / T700 / T800
Tensile Strength: ≥3000 MPa / ≥3400 MPa / ≥4000 MPa
Width: 10–100 cm (customizable)
Areal Weight: 80–600 g/m² (customizable)
Applications:
Widely used in concrete structure repair and strengthening, it enhances load - bearing capacity and durability, making it the preferred solution in civil engineering. It is also applicable to aerospace panels, UAV components, high - performance bicycles, sporting goods, automotive reinforcements, and wind turbine blades
Carbon Fibre Rebar
Carbon Fibre Rebar — The Future of ReinforcementLightweight • Corrosion-Resistant • Ultra-Strong
Carbon Fibre Rebar delivers unmatched strength-to-weight performance and superior durability compared to traditional steel. Made with high-grade carbon fibre and advanced resin systems, it ensures exceptional tensile strength, zero rusting, and long-term structural reliability — even in harsh environments.
Tensile Strength: ≥2400 MPa
Density: 1.6 g/cm³ (¼ the weight of steel)
Thermal Expansion: Near zero — no cracking or deformation
Non-Conductive and Corrosion-Free
Customizable diameter and length options
Applications:
Ideal for bridges, tunnels, coastal and marine structures, industrial foundations, and high-durability architecture, where corrosion resistance and low maintenance are critical
Carbon Fibre Geogrid
Carbon Fibre Geogrid — Reinforcing the Future of InfrastructureHigh Strength • Lightweight • Long-Term Stability
Carbon Fiber Geogrid is designed for soil and structural reinforcement, offering exceptional tensile performance, chemical resistance, and dimensional stability.
Compared with traditional polyester or glass fiber grids, it delivers higher modulus, longer durability, and superior crack control, even under cyclic loads and harsh conditions.
Tensile Strength: 200–400 kN/m(customizable by application)
Density: ~1.6 g/cm³
Temperature Resistance: -200°C to +400°C
Excellent chemical and fatigue resistance
Mesh size and thickness customizable
Applications:
Widely used in roadways, runways, bridge decks, tunnels, retaining walls, and concrete reinforcement — providing long-term strength and reduced maintenance costs for modern infrastructure.
Carbon Fibre Sleeve
Carbon Fibre Sleeve — Flexible Protection, Superior StrengthOur Carbon Fibre Sleeves are engineered with biaxial braided structures, providing 360° coverage, high tensile strength, and excellent flexibility. They adapt seamlessly to complex shapes while ensuring maximum reinforcement and lightweight protection.
Core Specifications
Fibre Types: 3K / 6K / 12K / 24K
Grades: T300 / T700 / T800
Tensile Strength: ≥3000 / ≥3400 / ≥4000 MPa
Diameter: 10–150 mm (customizable)
Weave: Plain / Twill / Custom options available
Applications
Ideal for automotive drive shafts, pipes, tubes, aerospace structures, marine equipment, sports gear, and industrial reinforcements.
Chopped Carbon Fibre
Chopped Carbon Fibre — Lightweight Power, Infinite PossibilitiesChopped carbon fibre designed for reinforcement in thermoplastics, thermosetting resins, and coatings. With excellent dispersion and strong interfacial bonding, it helps manufacturers achieve higher strength, lower weight, and enhanced durability in their final products.
Key Features:
High strength-to-weight ratio
Excellent electrical and thermal conductivity
Corrosion and chemical resistance
Easy to mix with resins, coatings, or concrete
Applications:
Ideal for engineering plastics, automotive parts, electronic components, conductive materials, construction reinforcement, and sports equipment.
Spread Tow Carbon Fibre Fabric
Spread Tow Carbon Fibre Fabric — Flat • Smooth • Lightweight • StrongEngineered for next-level composites, our Spread Tow Carbon Fibre Fabric is designed to deliver exceptional surface finish, reduced resin consumption, and superior strength-to-weight ratio
Key Advantages
Flat and Smooth: Minimized crimping for an ultra-smooth finish, ideal for visible carbon applications
Lightweight: Optimized fibre spreading reduces excess resin and weight without compromising strength
High Strength: Outstanding mechanical performance with improved stiffness and durability
Aesthetic Excellence: Perfect for automotive, aerospace, sports equipment, and luxury products
Core Specifications
Fibre Types: 12K / 24K
Weave Style: Plain / Twill (customizable)
Weight Range: 60–200 g/m²
Width: 10–100 cm (customizable)
Carbon-Aramid Hybrid Fabric
Carbon-Aramid Hybrid Fabric — Strength Meets Protection
By merging the high tensile strength of Carbon Fibre with the impact resistance of Aramid Fibre, hybrid fabric delivers the perfect balance of strength, toughness, and lightweight performance.
Key Features:
High Strength and Rigidity: Carbon fibre reinforcement, tensile strength ≥ 3500 MPa
Impact Resistance: Aramid fibre provides outstanding toughness
Lightweight and Durable: Excellent balance of performance and weight
Customizable Weaves: Available in plain, twill, and satin patterns
Core Specifications (Customizable):
Fiber Type: 3K / 12K Carbon + Aramid
Weight: 150–300 g/m²
Width: 100–150 cm
Tensile Strength: ≥ 3500 MPa
Applications:
Aerospace panels, automotive reinforcements, protective gear, sports equipment, and advanced composites
Carbon Fiber EV Fireproof Blanket
When EV fires happen, seconds matter. Traditional extinguishers are often not enough for lithium-ion battery fires. That’s why we developed a Carbon Fiber Fire Blanket — designed specifically for new energy vehicle (NEV) fire suppression.
Key Performance Highlights
Instant temperature resistance up to 3200°C 1000°C
continuous protection for ~90 minutes 0 after-flame | 0 smoulder
No melting or dripping High flame retardancy with LOI > 42
No re-ignition after blanket removal
Lighter than traditional carbon fiber fabrics
Washable and reusable, suitable for repeated emergency use
Engineered for NEV and High-Risk Fire Scenarios • Electric vehicle battery fires • Charging stations and parking garages • Automotive workshops and industrial sites • Emergency response and fire rescue operations
This heavy-duty carbon fibre fire blanket effectively isolates oxygen, suppresses flames, and prevents re-ignition, even under extreme temperatures — while remaining practical, durable, and easy to handle.