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Heavy-Duty Alloy

C95400 Aluminum Bronze forHigh-Stress Components

C95400 is a premier high-strength aluminum bronze alloy, offering superior wear resistance, high tensile strength, and excellent performance in corrosive marine environments.

C95400 Aluminum Bronze gears, bushings, and high-strength industrial parts
Material Overview

What is C95400 Aluminum Bronze?

C93200 is a versatile, high-strength aluminum bronze alloy characterized by its exceptional mechanical properties and resistance to wear, fatigue, and deformation. Unlike leaded bronces, C95400 relies on aluminum and iron to achieve steel-like strength levels. For CNC machining, it requires more robust tooling due to its hardness but rewards the effort with parts that can withstand extreme pressures and harsh chemicals. It is widely used in heavy machinery, marine hardware, and any application where high load-bearing capacity and anti-galling properties are mandatory.

Precision CNC machined C95400 aluminum bronze gears and heavy-duty wear plates
Specifications

C95400 Bronze Specifications

Technical engineering data for C95400 aluminum bronze. This material is designed for applications where high tensile strength and superior resistance to environmental degradation are critical.

C95400 Engineering Properties

Material Type

Aluminum Bronze (9C)

Composition

85% Copper, 11% Aluminum, 4% Iron

Primary Characteristics

Extremely high strength, high hardness, excellent wear resistance, salt-water resistant

Tensile Strength (Ultimate)

75–85 ksi (517–586 MPa)

Tensile Strength (Yield)

30–35 ksi (207–241 MPa)

Elongation at Break

12–15%

Brinell Hardness

170 HB

Density

7.45 g/cm³ (0.269 lb/in³)

Elastic Modulus

15,000 ksi (103 GPa)

Thermal Conductivity

59 W/m·K

Coefficient of Thermal Expansion

16.2 µm/m·°C

Specific Gravity

7.45

Electrical Conductivity

13% IACS

Machinability

Fair (Rating 60%; requires rigid setups and carbide tooling)

Weldability

Good (Gas shielded arc, coated metal arc, and resistance welding)

Corrosion Resistance

Excellent (High resistance to seawater, acids, and cavitation)

Surface Treatment

Not required; develops a protective oxide film

Common Forms

Solid bar, cored bar, plate, rectangle

Typical Applications

Worm gears, high-strength bushings, valve seats, pump components, marine hardware

Standards

ASTM B505, B271, B148

Performance

C95400 Bronze Performance Overview

Ranked for heavy-duty industrial strength, wear resistance, and demanding mechanical applications.

Tensile Strength

Wear Resistance

Machinability

Load Capacity

Corrosion Resistance

Impact Resistance

Weldability

Cost Efficiency

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Where C95400 Bronze is Commonly Used

Engineered for high-stress environments where inferior alloys would undergo deformation or chemical attack.

Heavy-duty worm gears and high-load bearings

Marine propeller shafts and hardware

Valve seats and stems for corrosive fluids

Mining and earthmoving equipment bushings

Fasteners for chemical processing plants

Pump impellers and internal components

Landing gear components for aerospace

Pickling tank equipment

Wear strips and structural members

Material FAQs

Aluminum Bronze C95400 FAQs for Heavy-Duty Manufacturing

Expert technical guidance for engineering teams utilizing high-strength C95400 Aluminum Bronze for heavy-load industrial and maritime applications.

Ready for your Project

Extreme Strength & Corrosion Resistance

Bronze C95400: The Heavy-Duty Standard for High-Impact Applications

Bronze C95400, or Aluminum Bronze, is the toughest and most durable bronze alloy available for industrial use. Engineered with a high aluminum content, it provides extraordinary tensile strength, yield strength, and hardness that rivals many heat-treated steels.

At PREMSA Industries, we specialize in the precision CNC Machining of C95400 to produce high-integrity gears, heavy-duty bushings, and marine hardware designed to survive the most punishing mechanical environments.

Why C95400 is the 'Powerhouse' of Copper Alloys

  • Exceptional Tensile Strength: Boasts mechanical properties far superior to standard tin bronzes, making it ideal for high-load structural parts.
  • Superior Wear & Abrasion Resistance: Its high hardness allows it to withstand constant friction and 'metal-on-metal' contact without premature failure.
  • Shock Load Capacity: Unlike more brittle alloys, C95400 can absorb heavy impacts and 'crushing' loads without deforming or cracking.
  • Acid & Sea Water Resilience: Highly resistant to non-oxidizing acids and salt water, making it the premier choice for chemical processing and naval engineering.
  • High-Temperature Integrity: Maintains its mechanical strength and hardness at elevated temperatures where other bronzes would soften.
  • Non-Sparking Properties: A critical safety feature for tools and components used in explosive or flammable environments (ATEX zones).

C95400 vs. Standard Bearing Bronze: When to Upgrade

While Bronze C93200 is perfect for high-speed rotation, Bronze C95400 is selected for high-pressure, low-speed applications where the material must 'fight' against deformation. It is the industrial choice for the most demanding mechanical challenges.

The Strategic ROI

  • Dramatically reduces the frequency of part replacements in high-impact machinery
  • Prevents catastrophic failure in landing gear, heavy valves, and earthmoving joints
  • Provides a lightweight, non-magnetic alternative to high-strength steel alloys
  • Ensures safety in hazardous environments through its non-sparking nature

Precision Engineering for Hard Alloys

  • Our CNC Milling processes handle the increased hardness of Aluminum Bronze with specialized tooling
  • Expertise in achieving tight-tolerance Drilling & Threading for heavy-duty mechanical fasteners
  • High-rigidity setups to ensure perfect concentricity in large-diameter gears and bushings

Performance Strengths for Heavy Industrial Gear

  1. Crushing Strength: Capable of supporting immense weight without flattening.
  2. Oxidation Resistance: Forms a protective aluminum-oxide layer that heals itself if scratched.
  3. Fatigue Endurance: Excellent resistance to vibration-induced stress and metal fatigue.
  4. Stable Machinability: Despite its hardness, it provides a predictable and high-quality surface finish in CNC Turning.
  5. Weldability: One of the few bronzes that can be successfully joined via TIG or MIG welding processes.
  6. Low Friction under Load: Performs exceptionally well when paired with hardened steel mating parts.

Design Limitations & Engineering Tips

  1. Tool Wear: Due to its extreme hardness, it is more abrasive on cutting tools; we adjust our feed rates to guarantee precision.
  2. Lubrication Requirements: Unlike leaded bronzes, C95400 requires consistent external lubrication to prevent galling under high speeds.
  3. Initial Investment: Higher material cost than standard brass or bronze, justified by its extreme service life.
  4. Mating Material: For best results, use with shafts hardened to at least 45-50 HRC to ensure the bronze remains the 'wear' part.
  5. Complexity: Best suited for CNC Machining rather than thin-gauge stamping due to its stiffness.

Heavy-Duty Fabrication at PREMSA Industries

High-Load Bushings & Gears

We specialize in 'Extreme-Service' components. From worm gears to massive pivot bushings, our CNC Mill-Turn centers are optimized for the toughness of C95400.

  • Custom-machined gears with precise tooth profiles for high-torque transmission
  • Heavy-wall bushings for construction, mining, and oilfield equipment
  • Intricate valve bodies for high-pressure chemical handling

Prototyping & Dynamic Validation

Validate your high-stress designs with Prototype 3D Printing before moving to C95400. We ensure your assembly handles the load before we cut the final high-strength bronze.

  • Verify mechanical clearances with SLS models
  • Fast transition from digital simulation to certified heavy-duty hardware

Industrial Finishing & Quality Control

  • Precision honing for ultra-smooth bore finishes in high-pressure cylinders
  • Bead blasting for a uniform matte finish on high-end marine hardware
  • Hardness testing and dimensional verification to ensure compliance with ASTM standards

Common High-Value Applications

Wherever strength and corrosion resistance are mandatory, C95400 is the core of premium CNC machined components.

  • High-torque gears, worm drives, and heavy-duty wear strips
  • Landing gear bushings and aerospace structural fasteners
  • Oil and gas valve stems, seats, and internal pump hardware
  • Marine propeller hubs, rudders, and salt-water pump impellers
  • Construction equipment pivot pins and earthmoving bushings
  • Non-sparking safety tools for oil rigs and chemical plants
  • Automotive high-performance valve guides and seats
  • Heavy-duty industrial hydraulic cylinder glands

Is C95400 Aluminum Bronze Right for Your Project?

If you need a material that can withstand extreme pressure, aggressive chemicals, and heavy impacts, C95400 is your most durable technical investment.

  • When parts are subject to high-impact 'shock' loads or heavy crushing pressure
  • When the environment is highly corrosive (acids, salt water, industrial chemicals)
  • When you need the strength of steel with the non-sparking or non-magnetic properties of bronze
  • When manufacturing gears or bushings that must last in high-friction environments
  • When structural reliability is the absolute priority in mission-critical hardware