Home Products & Industries
01 Industries We Serve
Aerospace
Aerospace
Automotive
Automotive
Heat Treatment
Heat Treatment
Energy
Energy
Metal Tool & Mold
Metal Tool & Mold
Semiconductor Manufacturing
Semiconductor Manufacturing
Glass & Ceramics
Glass & Ceramics
Train & Rail Systems
Train & Rail Systems
Industrial Furnaces
Industrial Furnaces
Magnets & Sintering
Magnets & Sintering
Battery Manufacturing
Battery Manufacturing
HVAC & Industrial Appliance
HVAC & Industrial Appliances
02 C/C Product Categories
C/C Brazing Fixtures and Springs
Brazing Fixtures and Springs
GRIDS AND TRAYS
GRIDS AND TRAYS
Carbon-Carbon Fasteners and Hardware
Fasteners and Hardware
Carbon-Carbon Plates and Carriers
Plates and Carriers
Furnace Parts and Components
Furnace Parts and Components
Friction Materials
Friction Materials
03 Industries Served:

The Industry Leader in C/C Composite Solutions

At Across-CFC, we specialize in high-performance carbon-carbon (C/C) composites, delivering precision, durability, and efficiency across diverse industries. Our expertise in on-demand manufacturing, custom engineering solutions, and advanced material science allows us to provide tailor-made C/C components for the most demanding applications.

Our proprietary Preformed Yarn (PY) Method, advanced fiber orientation technology, and high-precision CNC machining ensure every component meets the highest performance standards—from aerospace and automotive applications to industrial furnaces and semiconductor manufacturing.

Custom Manufacturing Solutions:

From prototype development to full-scale production.

Sustainability & Energy Efficiency:

Lighter, longer-lasting materials that reduce energy consumption.

Unmatched Durability & Performance:

Heat, wear, and corrosion-resistant materials for extreme environments.

01 / 12
High-Performance C/C Composites for Aerospace Applications

Aerospace

Industry

Pioneering Aerospace Advancements with C/C Composites

Aerospace engineering demands high-strength, lightweight, and heat-resistant materials that can withstand extreme operating conditions. Across-CFC’s engineered C/C composites exceed industry standards by offering:

Aircraft Component Heat Treatment Trays:

Withstand high-temperature processing of titanium and advanced alloys.

Precision Brazing Fixtures for Heat Exchangers:

Superior thermal stability reduces downtime and improves bonding efficiency.

Lightweight, Wear-Resistant Braking Systems:

C/C brake materials reduce weight while enhancing durability.

Coating Applications for Aerospace Components:

Protective coatings extend component lifespan and performance

02 / 12
Lightweight & Heat-Resistant C/C Composites for Automotive Engineering

Automotive

Industry

Driving Automotive Innovation with C/C Composites

The automotive sector requires lighter, stronger, and thermally stable materials to enhance vehicle performance. Across-CFC’s advanced C/C solutions provide:

Heat Treatment Trays for Automotive Parts:

Longer lifespan than metal, reducing downtime and costs.

C/C Brazing Fixtures for Radiators & Oil Coolers:

Significant energy reduction, optimizing heat exchanger production.

High-Performance Brake Pads, LSDs, and Clutch Components:

Enhanced thermal and mechanical stability for reliable performance.

Optimized Heat Conductivity for Automotive Heat Exchangers:

Improves thermal performance and brazing efficiency.

03 / 12
High-Durability C/C Composites for Heat Treatment Processes

Heat Treatment

Industry

Revolutionizing Heat Treatment with C/C Technology.

Across-CFC's C/C composites outperform metals in extreme temperature environments, delivering:

Heat Treatment Trays & Fixtures:

Many cycles of maintenance-free use reduce operational costs.

Custom Brazing Jigs:

CNC precision-cut fixtures with controlled fiber orientation for heat uniformity.

Energy Efficiency & Sustainability:

Significant reduction in energy consumption compared to metal jigs.

Compatibility with Vacuum, Inert Gas, and Nitrogen Atmospheres:

Suitable for a range of heat treatment processes.

Note: C/C composites are not compatible with oil quenching due to their material structure.

04 / 12
Sustainable C/C Composites for Clean Energy Applications

Clean Energy

Industry

Empowering Clean Energy with C/C Composites

Across-CFC supports next-gen clean energy solutions with high-strength, corrosion-resistant C/C components, including:

Thermal Battery Storage Components:

Lightweight & heat-resistant for optimized energy retention.

Pyrolysis Process Equipment:

Superior thermal resistance, reducing material degradation.

Next-Gen Nuclear Reactor Components:

Advanced C/C solutions for long-term performance.

Bolts, Nuts, and Fasteners for Energy Systems:

Reliable high-temperature hardware solutions.

05 / 12
High-Performance C/C Composites for Metal Tool & Mold Manufacturing

Metal Tool & Mold

Industry

Optimizing Metal Tool & Mold Production with C/C Composites

Across-CFC’s CNC-machined C/C trays and fixtures improve metal tool production by

Resisting High-Temperature Deformation:

Ensuring precision & longevity.

Reducing Heat Cycle Times:

Enabling faster sintering & processing.

Custom Fixture Design:

Controlled fiber orientation for maximum efficiency.

Custom-Designed Racks, Baskets, and Jigs:

Engineered for specific tooling applications.

06 / 12
High-Purity C/C Composites for Semiconductor & Solar Manufacturing

Semiconductor, FPD & PV

Industry

High-Purity Carbon-Carbon Composites for Contamination-Free Semiconductor & Solar Panel Manufacturing

Across-CFC’s Carbon-Carbon (C/C) composites are engineered for advanced thermal, mechanical, and purity requirements essential in semiconductor, FPD (flat panel display), and photovoltaic (PV) production environments.

CVD & PECVD-Compatible Heater Plates and Trays:

Designed for high-temperature, high-purity coating and deposition processes, ensuring contaminant-free processing of wafers and panels.

Silicon Ingot Processing & Thermal Management Components:

Custom-engineered parts that ensure heat uniformity and dimensional stability throughout crystal growth and cutting phases.

Wafer Carriers & Solar Panel Handling Fixtures:

Lightweight, durable C/C components that minimize energy loss and reduce thermal mass, improving cycle efficiency.

Corrosion-Resistant C/C Materials:

Resistant to plasma and chemical exposure, including halogens and reactive gases commonly used in semiconductor fabrication.

07 / 12
Heat-Resistant C/C Composites for Glass & Ceramics Manufacturing

Glass & Ceramics

Industry

High-Temperature Carbon-Carbon Composites for Precision Glass & Ceramic Manufacturing

Across-CFC’s engineered C/C composites deliver thermal stability, mechanical strength, and production efficiency for high-heat glass and ceramics applications.

Sintering & Firing Trays:

Heat-resistant, dimensionally stable trays that reduce warping and material breakage during ceramic firing and sintering cycles.

Glass Processing & Melting Compatibility:

C/C components maintain performance in extreme temperatures, ideal for float glass and specialty glass production.

Wear-Resistant Sliding Plates & Fixtures:

Designed for smooth, precise material handling in high-temperature environments, reducing wear and improving process control.

Reduced Thermal Shock & Extended Tool Life:

Low thermal expansion minimizes stress, helping extend the life cycle of trays, plates, and handling systems.

08 / 12
Advanced Carbon-Carbon Composites for High-Efficiency Rail Applications

Train & Rail Systems

Industry

Across-CFC’s lightweight, wear-resistant C/C materials are engineered to meet the demands of modern rail systems offering improved electrical conductivity, reduced system weight, and extended operational life.

Pantograph Contact Strips:

Copper-infused C/C composites improve current transfer and reduce wear on catenary wires, extending the lifespan of overhead systems.

High-Performance Braking Components:

Durable, heat-resistant braking materials provide consistent friction and longer life under high-speed, high-load conditions.

Lightweight Construction:

Reduces overall train weight, contributing to improved energy efficiency and lower fuel or power consumption.

Reduced Maintenance Cycles:

Engineered for high endurance, C/C components help lower operating costs by minimizing replacement frequency and service interruptions.

09 / 12
High-Durability C/C Composites for Industrial Furnaces

Industrial Furnace

Industry

Revolutionizing Industrial Furnace Applications with C/C Composites High-temperature industrial processes require reliable, long-lasting materials. Unlike traditional metals that warp over time, Across-CFC’s engineered C/C solutions offer:

Extreme Heat & Thermal Shock Resistance:

Stable performance in high-temperature vacuum and inert gas furnaces, even during rapid heating and cooling cycles.

Improved Energy Efficiency:

Faster thermal response reduces furnace cycle time and overall energy consumption.

Longer Service Life:

C/C components resist fatigue and deformation leading to years of reliable use with minimal maintenance.

Comprehensive Solutions for Furnace Applications:

Custom Components:

Precision-engineered trays, impeller fans, rollers, forks, and conveyor systems for reliable operation under extreme conditions.

High-Strength Fasteners & Insulation:

C/C bolts, nuts, washers, and insulation sheets designed for thermal stability and secure mechanical integration.

10 / 12
High-Performance C/C Composites for Magnet & Sintering Processes

Magnets & Sintering

Industry

Across-CFC’s Carbon-Carbon sintering trays, rollers, and support components are engineered to meet the demanding conditions of high-temperature magnet production, including Neodymium magnet sintering.

Our C/C’s Advantages:

Minimal warping in high-heat environments.

Maintains dimensional precision during sintering.

Optimized energy efficiency.

Faster thermal cycling reduces overall operational cost.

Long-lasting rollers and casing components.

Lower downtime and improved throughput in continuous operations.

Superior chemical stability.

Resists oxidation and chemical degradation in vacuum and inert gas conditions.

Precision-built for Neodymium magnet sintering.

Engineered to withstand high pressure and temperature requirements.

11 / 12
Energy-Efficient C/C Composites for Battery Manufacturing

Battery Manufacturing

Industry

Across-CFC’s Carbon-Carbon composites are engineered to improve performance, efficiency, and reliability across battery production and energy storage applications.

High-temperature sintering parts for battery components.

Built for long-lasting thermal performance under repeated cycling.

Durable fixtures for continuous furnace processing.

Reduces downtime and maintenance in high-volume lines.

Lightweight, heat-resistant transport rollers.

Enables high-speed material handling in elevated temperature environments.

Chemically stable C/C boxes and casings.

Prevents contamination and protects battery assemblies from thermal damage.

12 / 12
High-Efficiency C/C Composites for HVAC & Industrial Appliances

HVAC & Industrial Appliances

Industry

Optimizing HVAC & Industrial Appliance Manufacturing with C/C Composites Across-CFC’s C/C solutions:

Lightweight, energy-efficient brazing jigs:

Faster processing and lower energy costs.

High-performance components for HVAC heat exchangers:

Enhanced thermal conductivity.

Reduced energy consumption and heat loss:

Sustainability-focused solutions.

C/C components for refrigeration and diffusion bonding:

Specialized materials for thermal applications.

02-01 Product Categories

High-Performance Carbon-Carbon (C/C) Springs & Brazing Fixtures

01 / 03
Overview

In industries where extreme heat resistance, precision, and durability are essential, Across-CFC’s Carbon-Carbon (C/C) springs and brazing fixtures set a new benchmark. Through custom on-demand manufacturing, each component is engineered to provide lightweight strength, thermal stability, and long service life in the harshest environments.

Why C/C Spring Fixtures Are Critical

C/C spring fixtures deliver reliable, uniform force for high-temperature processes that metal systems cannot withstand. Their low heat capacity and dimensional stability reduce energy use, speed up cycle times, and maintain precision through repeated thermal exposure.

Typical Applications

Aerospace and automotive heat exchangers, semiconductor processing, and industrial furnace brazing lines.

Spring Jig Benefits Report
.
02 / 03
Key Advantages

Key Advantages

  • Heat resistance up to 2,192 °F (1,200 °C) with minimal deformation
  • High compression performance and uniform force distribution
  • Roughly 70 % lighter than metal fixtures, improving handling and load efficiency
  • Generates up to 54 lbs (24.5 kg) of force while weighing only 0.9–3 oz (26–84 g)
  • Maintains planarity and spring constant across repeated heat cycles
  • Custom-built on demand to exact specifications
03 / 03
Product Examples

Product Range Examples

Across-CFC manufactures both standard and fully custom spring fixtures and components, each engineered for extreme temperature applications:

C/C Brazing Fixtures and Springs

Each C/C fixture and spring is custom-engineered on demand to meet the customer’s specific thermal, load, and dimensional requirements. Every design achieves measurable reductions in energy use and cycle time while delivering the precision and reliability expected from Across-CFC’s composite technology.

BRAZING FIXTURES:

Coil Spring Fixture

Applications: High-load, high-uniformity brazing and heat-treatment fixtures

Coil Spring Fixture
play video
  • Operates above 2,000 °F without deformation
  • Generates up to 24.5 kg of force with minimal weight
  • Available in multiple standard geometries or fully custom builds

Z-Spring Fixture

Applications: Fixtures requiring evenly distributed compression force

Z-Spring Fixture
play video
  • High shear strength and flexible load control
  • Lightweight, low-stress design reduces fatigue
  • Offered in standard and bespoke builds

COIL SPRINGS:

Standard Coil Springs

Applications: High-load, high-uniformity brazing and heat-treatment fixtures

Standard Coil Springs
  • Operates above 2,000 °F without deformation
  • Generates up to 24.5 kg of force with minimal weight
  • Available in multiple standard geometries or fully custom builds

Z-SPRINGS (Custom Z-Spring)

Applications: Fixtures requiring evenly distributed compression force

Custom Z-Spring
  • High shear strength and flexible load control
  • Lightweight, low-stress design reduces fatigue
  • Offered in standard and bespoke builds

LEAF SPRINGS:

Leaf Spring

Applications: Sub-assembly or thermal fixtures requiring controlled movement

Leaf Spring
play video
  • Stable performance through repeated heating cycles
  • Customizable thickness and flexibility
  • Designed for long-term use in high-temperature systems

Leaf Spring Fixture

Applications: Fixture-based heat-treatment setups

Leaf Spring Fixture
  • Designed to integrate with C/C fixture assemblies
  • Lightweight and thermally stable

E-CLIPS:

Custom E-Clip

Applications: High-temperature joints and fixture assemblies

Custom E-Clip
Custom E-Clip
  • Retains structural integrity under thermal expansion
  • Machined from C/C composite for strength and weight reduction
  • Available in standard and custom sizes
02-02 Product Categories

Carbon-Carbon Trays: Built for High-Performance Industries

01 / 03
Overview

In high-temperature sectors such as aerospace, automotive, semiconductor, energy, and heat treatment, tray design directly affects thermal efficiency, energy consumption, and part quality. Across-CFC’s Carbon-Carbon (C/C) trays are engineered for durability, precision, and long-term stability, delivering consistent performance through repeated thermal cycling.

Why C/C Trays Outperform Conventional Materials

C/C trays maximize process efficiency and reduce operational costs by combining thin-walled strength with superior heat transfer. Compared to graphite and metal alternatives, they maintain integrity through repeated cycles without warping or fatigue. Each tray is precision-built on demand, allowing for tailored geometries, wall thicknesses, and capacities to match the customer’s specific thermal and load requirements.

Proven Use Across Industries

Aerospace: heat treatment of structural and engine components, Automotive: high-precision, high-volume thermal processing, Semiconductor and solar: contamination-free tray systems, Metal processing: sintering and brazing fixtures, Glass and ceramics: controlled thermal cycling applications

C/C vs. Graphite Tray Comparison
.
02 / 03
Key Advantages

Key Advantages

  • Up to 27 % more effective heat transfer and 24 % lower heat capacity than graphite trays
  • Withstands extreme temperature cycling without deformation or cracking
  • Lighter, thinner construction improves handling and increases furnace capacity
  • Modular and repairable designs extend service life and minimize downtime
  • Custom fabrication ensures each tray meets the required dimensional and mechanical specifications
03 / 03
Product Examples

Product Range Examples

Across-CFC designs and manufactures a full range of Carbon-Carbon (C/C) trays engineered for precision, energy efficiency, and structural stability in high-temperature processing environments:

Carbon-Carbon Trays

Each C/C tray is custom-engineered on demand for its intended process environment. Across-CFC’s designs deliver measurable improvements in throughput, energy efficiency, and part consistency, all achieved through precise material engineering and tailored fabrication.

INTERLOCKING GRID TRAY:

Grid Tray System

Applications: High-load, stackable furnace and batch processing systems

Grid Tray System
play video
  • Optimized for maximum stacking and airflow
  • Lightweight yet strong, reducing furnace energy load
  • Ideal for heat-treatment operations requiring uniform thermal distribution

Grid Trays

Applications: High-strength, configurable tray systems for high-temperature industrial processing

Grid Trays
play video
  • Designed for high-temperature operation
  • High load-bearing capacity for stacked furnace use
  • Flexible grid configurations to support custom engineering requirements

BASKET:

Basket Tray

Applications: Heat-treatment of small or irregularly shaped components

Basket Tray
play video
  • Customizable mesh structures for part containment and heat exposure control
  • Excellent durability under continuous high-temperature use
  • Available in multiple shapes and densities for specific part geometries

Basket Trays

Applications: Secure holding of small or irregularly shaped parts in high-temperature processes such as sintering, brazing, heat treating, and casting

Basket Tray
  • Long-term durability with reduced distortion at temperature
  • Lightweight construction to improve thermal and handling efficiency
  • High-strength structure suitable for demanding load conditions

ROUND TRAY:

Custom Grid Tray

Applications: Rotary and vacuum furnace processing

ROUND TRAY
  • Maintains dimensional stability at high temperature and load
  • Designed for precise thermal cycling with even heat distribution
  • Fully customizable diameters and configurations

MACHINED TRAY:

Custom Grid Tray

Applications: Aerospace, semiconductor, and high-precision manufacturing

MACHINED TRAY
  • Custom-machined for exact tolerances and fit
  • Engineered to integrate with automated handling systems
  • Delivers consistent results across repeated heat cycles

Custom Grid Trays

Applications: Precision-engineered trays for high-temperature, load-bearing applications requiring dimensional accuracy

MACHINED TRAY
play video
  • Excellent stability and durability at elevated temperatures
  • High load-bearing performance under repeated thermal cycles
  • Precision machining to meet application-specific requirements
02-03 Product Categories

Premium Carbon-Carbon Fasteners & Industrial Hardware

01 / 03
Overview

Across-CFC’s Carbon-Carbon (C/C) fasteners and industrial hardware are designed for extreme environments where metal fasteners deform, corrode, or seize. Manufactured on demand to customer specifications, our short-fiber C/C composites deliver precision machining capability, exceptional heat resistance, and lightweight strength that outlasts metal alternatives.

Why Choose C/C Fasteners

C/C fasteners maintain structural and mechanical integrity even at temperatures exceeding 2,000 °C. The short-fiber composite design allows precise thread geometry, uniform torque performance, and fine tolerances across custom dimensions. Each component is engineered to provide reliable fastening under thermal stress while reducing overall system weight and eliminating corrosion or chemical degradation.

Industry Applications

Aerospace and defense systems, semiconductor and cleanroom equipment, industrial furnaces and heat-treatment fixtures, and automotive or EV components requiring lightweight high-strength connections.

.
02 / 03
Key Advantages

Key Advantages

  • Withstands continuous exposure above 2,000 °C without mechanical fatigue
  • Up to 70 % lighter than steel, improving handling and reducing load stress
  • Fine-thread machining achievable through short-fiber C/C composition
  • Corrosion-free and chemically stable in reactive or oxidizing atmospheres
  • Available in both metric (M6–M20) and inch (¼″–20 ~ 1″–8) formats
  • Custom and standard geometries manufactured on demand
03 / 03
Product Examples

Product Range Examples

Across-CFC produces precision Carbon-Carbon (C/C) fasteners and industrial hardware designed to perform under extreme heat, mechanical load, and corrosive conditions:

Carbon-Carbon Fasteners and Hardware

Each fastener and component is custom-engineered on demand to meet exact customer requirements for load, thread precision, and high-temperature endurance. Across-CFC’s short-fiber C/C materials enable tight machining tolerances and consistent fastening performance in the most demanding conditions.

THREADED & ROUND RODS:

Threaded Rods

Applications: High-load structural assemblies and heat-treatment systems

Threaded Rods
  • Retains tensile strength at extreme temperature ranges
  • Lengths up to 39.4 in (1000 mm)
  • Available in metric (M6–M20) and inch (¼″–20 ~ 1″–8) threads
  • Custom diameters, lengths, and thread profiles available

SQUARE & ROUND NUTS:

Square Nuts

Applications: High-torque joints and heat-treatment assemblies

Square Nuts
  • Fine-thread short-fiber C/C construction for precision fastening
  • Maintains torque strength under thermal expansion cycles
  • Corrosion- and galling-resistant for chemical and vacuum environments
  • Offered in both metric and inch standards

Round Nuts

Applications: Fasteners specified for high-temperature environments such as semiconductor furnace hot zones and brazing fixtures

Round Nuts
  • High thermal stability in extreme heat conditions
  • Strong mechanical performance for strength and torque requirements
  • Corrosion- and galling-resistant for chemical and vacuum environments
  • Cost-effective machined alternative to complex assemblies
  • Hex and other custom geometries available upon request

BOLTS & STUDS:

Stud

Applications: Structural, furnace, and process fixtures requiring mechanical integrity at high heat

Stud
  • Outperforms graphite and metal bolts in high-temperature stability
  • Will not expand, seize, or deform under thermal stress
  • Lightweight for improved load distribution and easier maintenance

Custom Bolts

Applications: Structural, furnace, and process fixtures requiring mechanical integrity at high heat

Custom Bolts
Custom Bolts
Custom Bolts
Custom Bolts
Custom Bolts

WASHERS & SPRING WASHERS:

Flat Washers

Applications: Thermal cycling systems and high-load mechanical assemblies

Flat Washers
  • Maintains fastening integrity during repeated heat cycles
  • Prevents loosening from vibration or thermal expansion
  • Available in flat and spring washer formats

Spring Washers

Applications: C/C composite spring washer components for specialized high-temperature fastening applications

Spring Washers
  • Stable performance in high-temperature environments
  • Provides axial spring force for load retention and thermal compensation
  • Available in standard metric sizes
02-04 Product Categories

Plates & Carriers: Versatile Carbon-Carbon Solutions for Precision Applications

01 / 03
Overview

Across-CFC’s Carbon-Carbon (C/C) plates and carriers are built for precision transport, thermal stability, and mechanical strength in semiconductor, aerospace, and industrial manufacturing. Through our on-demand manufacturing process, each component is tailored to the customer’s dimensional, mechanical, and environmental requirements.

Why C/C Plates and Carriers Deliver Reliable Performance

C/C plates and carriers combine dimensional stability, corrosion resistance, and excellent thermal conductivity, ensuring consistent operation under high temperature and load. Compared with conventional metals or graphite, these components maintain alignment, resist chemical degradation, and provide the precision and durability needed for demanding production environments.

Industry Applications

Used across semiconductor fabrication, aerospace assembly, and advanced manufacturing where precision transport and long service life are critical. C/C plates and carriers perform reliably in automated handling systems, furnace environments, and cleanroom processes requiring both heat and contamination control.

Technical Data Sheet
02 / 03
Key Advantages

Key Advantages

  • Dimensional stability under extreme heat and mechanical stress
  • High thermal conductivity for efficient heat transfer
  • Corrosion-resistant and chemically stable
  • Custom coatings available for cleanroom and semiconductor applications
  • Precision-machined through on-demand production for exact fit and performance
03 / 03
Product Examples

Product Range Examples

Across-CFC offers a range of Carbon-Carbon (C/C) plates and carriers engineered for structural, thermal, and precision-handling applications across aerospace, semiconductor, and industrial manufacturing sectors:

Carbon-Carbon Plates and Carriers

Every C/C plate and carrier is custom-engineered on demand for its intended use, whether as structural reinforcement, precision handling, or heat-resistant support. Across-CFC’s short-fiber composites allow for complex machining and consistent mechanical integrity in continuous thermal cycling environments.

STANDARD PLATES & SHEETS:

Plates / Sheets

Applications: Heat shielding, structural reinforcements, and high-temperature supports

Plates / Sheets
  • High load-bearing capacity without warping
  • Excellent thermal conductivity and shock resistance
  • Custom thicknesses and dimensions available
  • Optional surface coatings for cleanroom or semiconductor environments

BLOCKS & BARS:

Block / Bar

Applications: Aerospace structures, semiconductor carriers, and furnace linings

Block / Bar
  • Excellent mechanical strength and temperature stability
  • Machinable for transport or support configurations
  • Offered in standard or custom-cut dimensions

CARRIER PLATES:

Carrier Plate

Applications: Transporting wafers, substrates, and precision parts

Carrier Plate
  • Dust-resistant coatings minimize particle generation
  • High dimensional accuracy for automated alignment
  • Chemically stable and resistant to repeated heating
  • Standard and custom sizes available for wafer handling systems

MACHINED PLATES:

Custom Plate

Applications: Aerospace, semiconductor, and industrial processing

CUSTOM MACHINED PLATES
CUSTOM MACHINED PLATES
CUSTOM MACHINED PLATES
  • CNC-machined for tight-tolerance applications
  • Available in standard and custom geometries
  • Lightweight and thermally efficient
  • Designed through on-demand manufacturing for specific requirements
02-05 Product Categories

Furnace Parts & Components: Optimizing High-Temperature Performance

01 / 03
Overview

Across-CFC’s Carbon-Carbon (C/C) furnace parts and components are engineered to withstand extreme heat, improve energy efficiency, and extend furnace lifespan. Built through on-demand manufacturing, each component is designed to deliver superior strength, thermal resistance, and reduced furnace load across diverse industrial applications.

Why C/C Furnace Components Are Essential

C/C furnace parts resist warping, cracking, and fatigue under high-temperature cycles that quickly degrade metals. Their lightweight structure reduces overall furnace stress and power demand, improving energy efficiency and throughput. Each component is custom-manufactured for precise integration with specific furnace systems, ensuring perfect mechanical and thermal compatibility.

Industry Applications

Used globally in industrial heat treatment, semiconductor manufacturing, aerospace, automotive, and defense systems where high-strength, lightweight, and thermally stable materials are critical.

02 / 03
Key Advantages

Key Advantages

  • Maintains dimensional stability under continuous high-temperature exposure
  • Lightweight design increases production capacity by lowering furnace load
  • Tailored configurations for each furnace type and process condition
  • Proven energy savings through reduced thermal mass and faster heat recovery
  • Long operational life with minimal maintenance requirements
03 / 03
Product Examples

Product Range Examples

Across-CFC designs and manufactures custom Carbon-Carbon (C/C) furnace components built for high-temperature stability, energy efficiency, and long-term durability in industrial and advanced manufacturing environments:

  • Furnace Fans: 4-blade, 6-blade, and impeller types for uniform heat distribution
  • Furnace Rollers: durable, heat-resistant rollers for continuous furnace transport systems
  • Conveyor Systems: lightweight, heat-optimized C/C assemblies for precision material handling
  • Cast Cases: high-strength structural components for thermal processing environments
  • Handling & Fork Arms: robotic and heavy-duty arms designed for automated furnace loading
  • Insulation Sheets: lightweight C/C panels that minimize heat loss and protect furnace interiors

Furnace Parts and Components

Every C/C furnace component is custom-engineered on demand to meet the mechanical, thermal, and geometric requirements of each system. Across-CFC’s short-fiber composites and tailored machining deliver consistent performance across repeated thermal cycles.

FURNACE FANS:

4-Blade Fan

Applications: Industrial furnaces and heat-treatment processing

play video
  • Provides uniform heat distribution through efficient airflow
  • Heat-resistant and mechanically stable for long-term use
  • Lightweight construction reduces strain on furnace motors

6-Blade Fan

Applications: Industrial furnaces and heat-treatment processing

6-Blade Fan
  • Enhanced airflow control and efficiency
  • Maintains thermal balance during extended operation
  • High mechanical stability and precision-machined performance

Impeller Fan

Applications: Advanced furnace and airflow systems

Impeller Fan
  • Aerodynamic design for improved thermal efficiency
  • High structural stability and long service life
  • Maintains dimensional accuracy under thermal cycling

FURNACE ROLLERS:

Roller

Applications: Continuous furnaces, sintering lines, and material transport

Roller
  • Resists thermal expansion for smooth operation and minimal friction
  • Custom load capacity and dimensions available
  • Low heat loss improves furnace efficiency

Conveyor System

Applications: Semiconductor, industrial, and advanced manufacturing furnaces

Conveyor System
  • Maintains stability at high temperatures under heavy load
  • Custom-built C/C conveyor assemblies for precise material handling
  • Engineered to match process speed, weight, and thermal parameters

CAST CASES:

Cast Case

Applications: Thermal processing and precision industrial environments

Cast Case
  • Maintains structural integrity under thermal cycling stress
  • Lightweight yet durable for extended service life
  • Customizable to specific furnace chamber geometries

HANDLING ARMS:

Handling Arm

Applications: Automated furnace loading and high-temperature handling

Handling Arm
Handling Arm
  • Lightweight for high-speed robotic movement
  • Heat-resistant for furnace-side operation
  • Long-term durability for continuous automation cycles

FORK ARMS:

Fork Arm

Applications: Material transfer in furnaces and sintering systems

Fork Arm
  • Maintains strength under extreme heat and load
  • Lightweight construction with high structural stability
  • Customizable for weight distribution and load-bearing requirements

CARBON-CARBON FURNACE INSULATION SHEETS:

Furnace Insulation Sheet

Applications: Furnace interiors to reduce heat loss and improve energy retention

Furnace Insulation Sheet
  • Increases structural stability and protects internal components
  • Standard size 1000 × 2000 mm
    • Type A: Flexible along the long edge for specific furnace shapes
    • Type B: Flexible along the short edge for custom configurations
02-06 Product Categories

Friction Materials: Advanced Carbon-Carbon for Extreme Performance

01 / 03
Overview

Across-CFC’s Carbon-Carbon (C/C) composite friction materials are developed for braking systems, clutches, and industrial bearings that operate under extreme heat and mechanical stress. Produced through on-demand manufacturing, each component is precision-built to achieve superior friction control, high temperature resistance, and lightweight efficiency.

Why C/C Friction Materials Perform Better

C/C composites maintain stable friction properties and mechanical integrity at temperatures where steel and ceramic materials fail. Their lightweight structure improves system responsiveness, while superior wear resistance extends service life and reduces maintenance costs. For demanding applications, C/C-metal composite technology allows impregnation with selected metals to enhance wear and heat performance.

Industry Applications

C/C friction materials are used in automotive and motorsport systems requiring high-performance brake pads and clutches, aerospace and defense components that demand lightweight thermal stability, rail transport braking and pantograph systems needing long wear life, and industrial machinery that operates under continuous heavy-duty conditions where wear resistance and consistency are critical.

.
02 / 03
Key Advantages

Key Advantages

  • Maintains friction performance under continuous high heat
  • Excellent wear resistance and long service life
  • Lightweight, up to 50% less than steel alternatives
  • Custom-engineered for specific torque, pressure, and speed conditions
  • C/C-metal composite options available for severe industrial or defense use
03 / 03
Product Examples

Product Range Examples

Across-CFC manufactures advanced Carbon-Carbon (C/C) friction materials engineered for maximum heat resistance, wear stability, and performance across transportation and industrial systems:

Friction Materials

Each C/C friction material is custom-engineered on demand for its intended system. Across-CFC’s tailored formulations and machining deliver heat tolerance, strength, and consistency for braking, clutch, and friction-based mechanisms across industrial sectors.

INDUSTRIAL FRICTION DISCS:

Friction Disc

Applications: High-speed braking systems and heavy industrial friction assemblies

Friction Disc
Friction Disc
  • Withstands high temperatures without loss of performance
  • Reduces wear, extending operational life
  • Lightweight, improving energy efficiency
  • Customizable friction coefficients for specific conditions

BRAKE AND CLUTCH PLATES:

Clutch Disc

Applications: Automotive, aerospace, rail, and industrial machinery

Clutch Disc
  • High load capacity and stable friction at elevated temperatures
  • Reduces weight to improve mechanical response and efficiency
  • Prevents brake fade under continuous operation

Brake Discs and Pads

Applications: High-performance components for racing clutches and brakes, aircraft braking systems, and aerospace applications

Brake Discs and Pads
  • Lightweight, approximately one-fifth the density of metal
  • High heat resistance and thermal stability under severe conditions
  • High strength with extended service life

TRAIN SLIDING BOARDS:

Sliding Board

Applications: Pantograph contact strips and rail friction components

Sliding Board
  • Maintains performance under mechanical and electrical stress
  • Optimized for heat dissipation and low maintenance
  • Reduces overhead wire damage and replacement cycles

Ready to Upgrade to Custom Made Carbon-Carbon Products?

Contact

Every Across-CFC component is designed and manufactured on demand to meet your exact process, load, and thermal requirements. Whether you need prototype support, specialized engineering collaboration, or high-volume production, our team will develop a C/C solution optimized for your performance goals.

Start your next project or request a detailed quotation today.

useful links:
US Headquarters:
ACROSS USA, INC.
In Japan:
CFC Design Inc.

Custom. Scalable. Carbon-Carbon Strength. Let Us Bring Innovation to your Production Today.

to top

Stronger. Smarter. Carbon-Carbon.

Across-CFC C/C

through ingenuity

scalability

©2026, ACROSS USA, INC. All Rights Reserved.

our services:
quick contact:
we're on social media:
Search