Bronze Alloy Chart: Your Gateway to Efficiency

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Unlocking the Benefits of Bronze Alloy Composition. Revolutionize your machinery’s functionality with our self-lubricating plain bearings, utilizing the power of advanced bronze alloy composition. Experience seamless operation, enhanced wear resistance, and reduced downtime.

Bronze Alloy: Powering Superior Self-Lubricating Bearings to Excellence

Experience unparalleled performance and durability with our state-of-the-art self-lubricating plain bearings, expertly crafted using revolutionary bronze alloy composition. Bearingface.com proudly presents an exceptional collection redefining reliability and operational efficiency across industries. Bid farewell to frequent maintenance and lubrication concerns as our meticulously engineered self-lubricating bearings, empowered by groundbreaking bronze alloy composition, epitomize cutting-edge technology and unwavering reliability. Embrace an industrial future where seamless functionality reigns. Elevate your excellence with Bearingface.

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Bronze Alloy Composition: Elevating Efficiency, Durability, and Performance

A New Era Of Efficiency-

Innovative Self-Lubrication Technology

Experience the dawn of enhanced efficiency with our breakthrough self-lubrication technology. Our pioneering bronze alloy composition lies at the heart of this innovation. These plain bearings feature a sophisticated system of solid lubricant reservoirs intricately nestled within the bronze matrix. This groundbreaking approach guarantees a seamless and ideal dispensation of lubrication while in use, effectively curbing friction and thwarting wear and tear. Witness your machinery operate with unparalleled smoothness, curbing energy wastage and amplifying overall output. Embark on a new era where productivity knows no bounds, all thanks to our ingenious self-lubrication technology.

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Unmatched Durability and Performance – The Synergy of Strength and Friction Reduction

Experience a symphony of durability and performance through our meticulously crafted bronze alloy composition. Engineered to perfection, it bestows unmatched strength while masterfully diminishing friction. The harmonious fusion of copper, tin, and complementary elements forms a matrix of remarkable load-bearing prowess. This alloy’s synergy with inherent self-lubrication qualities gracefully extends the bearings’ lifespan, ensuring unwavering resilience even amidst heavy loads and the harshest environmental rigors. Elevate your expectations as we redefine endurance and efficiency in one seamless offering.

Precision Engineering for Diverse Applications -Tailored Solutions for Varied Needs

Embrace the essence of precision engineering across a spectrum of applications – our self-lubricating plain bearings shine across industries, from automotive marvels to robust heavy machinery. The versatility of our bronze alloy formulation empowers us to tailor these bearings meticulously, perfectly aligning with distinct demands and guaranteeing peak performance within your singular operational landscape. Your needs, your solutions – a harmonious integration of innovation and adaptability that defines our bearings’ prowess.

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cast Bronze Alloy Chart with mechanical properties

Alloy NameAlloy DesignationYield Strength (MPa)Tensile Strength (MPa)Elongation (%)Brinell Hardness (HB)
Tin Bronze 555ZCu5Pb5Zn52002205590
Tin Bronze 101ZCu10P122024010785
Tin Bronze 10-5ZCuSn10Pb519560012685
Tin Bronze 10-2ZCuSn10Pb224039015685
Aluminum Bronze 8-13-3ZCuA118Mn13Fe3600630201570
Aluminum Bronze 9-2ZCuA19Mn239049016835
Aluminum Bronze 9-4-4-22CuA19Fe4vi4vn2630490131570
Aluminum Bronze 10-3ZCuA110Fe34907253980
Aluminum Bronze 10-3-2ZCuA110Fc3Mn249024510685
Brass H62ZCuZn3829524530685
Aluminum Brass 25-6-3-37Cu7.n25A16Fe3Mn37251570101570
Manganese Brass 38-2-27Cu7n38Mn2Pb224568510685

Please note that the units for Yield Strength, Tensile Strength, and Brinell Hardness are in megapascals (MPa), and the units for Elongation are in percentage (%).

Why Choose Our Self-Lubricating Plain Bearings?

  • Maintenance Reduction: Bid farewell to constant lubrication routines and maintenance cycles. Our self-lubricating bearings ensure minimal upkeep, saving you time and resources.

  • Enhanced Efficiency: The friction-reducing properties of our bronze alloy composition translate to higher operational efficiency and energy savings.

  • Extended Lifespan: Experience bearings that stand the test of time, thanks to the robustness of the bronze matrix and continuous lubrication mechanism.

  • Cost-Effective: While the initial investment may be marginally higher, the long-term cost savings from reduced maintenance and enhanced durability make our bearings a cost-effective choice.

  • Environmental Friendliness: With less need for lubricants and reduced wear, our self-lubricating bearings contribute to a greener and more sustainable future.

Unveiling the Power of Bronze Alloy Composition: Your Guide to Self-Lubricating Plain Bearing Bronze Alloys

Bronze, an alloy composed primarily of copper and tin, has been a cornerstone of human civilization for millennia. Its versatility, durability, and unique set of properties have made it a staple material across various industries. The alloy selection chart serves as a compass for navigating the diverse landscape of bronze alloys. It provides a roadmap for choosing the ideal bronze alloy based on specific requirements, ensuring optimal performance and longevity in various applications. A blend of copper, tin, and other elements results in distinct properties, making each alloy suitable for specific use cases.s.

Choosing Your Self-Lubricating Plain Bearing Bronze Alloy:

Selecting the right self-lubricating plain bearing bronze alloy involves considering factors such as load-bearing capacity, operating conditions, temperature range, and corrosion resistance. Let’s highlight a few popular choices:

  • C93200 (SAE 660): This high-leaded tin bronze alloy offers excellent machinability and conformability. It’s suitable for low-speed, high-load applications and can operate in mildly corrosive environments.
  • C95400 (Aluminum Bronze): Combining copper with aluminum and iron, this alloy exhibits exceptional strength and corrosion resistance. Its mechanical properties make it a top choice for heavy-duty applications, especially those involving high shock and impact loads.
  • C86300 (Manganese Bronze): Manganese bronze boasts superior load-bearing capabilities and wear resistance. It’s often used in industrial machinery and equipment where heavy loads and abrasive conditions are prevalent.
  • C93200/C95400/C86300: These alloys can incorporate small amounts of graphite or lubricating deposits, further enhancing their self-lubricating properties. This makes them particularly suitable for environments where traditional lubrication methods are challenging to implement.

Bronze alloys, with their intricate compositions and remarkable properties, continue to shape industries and innovations worldwide. The alloy selection chart serves as an invaluable tool for matching the right bronze alloy to the right application. When it comes to self-lubricating plain bearing bronze alloys, understanding their unique characteristics and selecting the appropriate alloy can lead to improved performance, reduced maintenance, and extended operational lifetimes.

Cast Brass Alloy Composition Chart (GB/T1176-1987)

Alloy DesignationAlloy NameSnPbPNiAlFeZnMnSi
ZCuZn3838 Brass57.0~60.01.5~2.5
ZCuZn25Al6Fe3Mn325-6-3-3 Aluminum Brass20~402.5~5.01.5~4.057.0~66.045-703.0~4.0
ZCuZn26A14Fe3Mn326-4-3-3 Aluminum Brass15~402.5~5.01.5~4.066.0~68.020~403.0~4.0
ZCuZn31A1231-2 Aluminum Brass2.0~3.01.5~2.568.0~70.01.5~2.5
ZCuZn35Al2Mn2Fe135-2-2-1 Aluminum Brass1.5~4.01.5~4.057.0~65.010~20
ZCuZn38Mn2Pb238-2-2 Manganese Brass2.5~5.01.5~4.053.0~58.010~20
ZCuZn40Mn240-2 Manganese Brass60.0~63.025~45
ZCuZn40Mn3Fe140-3-1 Manganese Brass1.0~3.057.0~60.025~45
ZCuZn33Pb233-2 Leaded Brass2.0~3.00.5~2.563.0~67.005-250.5~2.5
ZCuZn40Pb240-2 Leaded Brass2.0~3.00.5~2.558.0~63.005-200.2~0.8
ZCuZn16Si416-9 Silicon Brass60.0~66.001-303.0~4.0

Please note that in the original table, some values are indicated as ranges (e.g., 45-70) or minimum and maximum values (e.g., 05-25), and some values are specified as a single value within the range (e.g., 60.0~63.0).

Bismuth Bronze Alloys compositions and applications in lead-free potable water systems:

AlloyCompositionTensile StrengthYield StrengthApplications
C8932089% Cu, 6% Sn, 5% Bi35,000 psi18,000 psiComponents requiring high strength
C8932586% Cu, 10% Sn, 3.2% Bi35,000 psi18,000 psiFluid dynamic applications
C8983189% Cu, 3.2% Sn, 3.2% Bi, 3% Zn29,000 psi13,000 psiDiverse applications, flanges
C8983389% Cu, 5% Sn, 2.2% Bi, 3% ZnVariedVariedFlanges, couplings
C8983587% Cu, 6.7% Sn, 2.2% Bi, 3% ZnVariedVariedFlanges, couplings
C8983689% Cu, 5.5% Sn, 2.5% Bi, 3% Zn33,000 psi15,000 psiHigh-strength applications
C8983786% Cu, 3.5% Sn, 0.9% Bi, 8% ZnVariedVariedLead-free alternatives

Lead-Free Applications in Potable Water Systems:

  1. Pump Shaft Sleeves: Utilize C89320 and C89325 alloys for pump shaft sleeves, ensuring both structural integrity and environmental safety.
  2. Flanges: Critical for pipe connections, C89831 or C89833 alloys can be employed for lead-free flanges, providing functionality and compliance.
  3. Backflow Preventers: Prevent water contamination using C89836 or C89837 alloys for lead-free backflow preventers, offering peace of mind.
  4. Impeller Wear Rings: Opt for C89833 and C89835 alloys for lead-free impeller wear rings, ensuring smooth fluid movement and water quality.
  5. Collars, Bushings, and More: The versatile range of copper bismuth bronze alloys caters to various needs, including collars, bushings, bowl wear rings, threaded brass fittings, adapters, check valves, water main fittings, and couplings.

By embracing these lead-free bismuth bronze alloys, potable water systems can be empowered with materials that prioritize safety, compliance, and performance.

Centrifugally Cast – High Leaded Tin Bronzes Alloy Chart

AlloyCross IndexNominal Chemical CompositionTypical Mechanical PropertiesTypical Uses
C93800319Cu 77%, Sn 7%, Pb 15%Tensile: 26,000 psi Yield: 14,000 psi Elongation: 12% BHN: 55 @ 500 KGLow friction – moderate pressure bushings, Railroad applications
C94000296Cu 71%, Sn 13%, Pb 15%BHN: 80 Min.
C94100325Cu 76%, Sn 6%, Pb 20%Tensile: 25,000 psi Yield: 17,000 psi Elongation: 7%General purpose bushings
C94300322Cu 70%, Sn 5%, Pb 25%Tensile: 21,000 psi Yield: 13,000 psi (Typical) Elongation: 10%Bearings, bushings, washers, bridge parts, bearing plates, non-pressure applications

Centrifugally Cast – High Leaded Tin Bronzes:

The high leaded tin bronzes offer a versatile range of alloys, each designed to excel in specific applications while maintaining advantageous properties. Notably, C932 (SAE 660) stands out as a widely used bearing bronze alloy, celebrated for its exceptional wear performance against steel journals. These alloys combine the antifriction properties with robust load-carrying capacities, making them suitable for various scenarios. Lead content contributes to interrupted lubrication tolerance and the ability to adapt to slight shaft misalignments.

Typical Uses:

  1. General Purpose Bushings: C94100’s composition makes it an optimal choice for dependable general-purpose bushings, bridging gaps between components.
  2. Bearings: C94300 and similar alloys excel in bearing applications, accommodating mechanical loads and facilitating smooth movement.
  3. Washers: C93800 washers contribute to seamless machinery operation, exhibiting resilience and load-bearing capabilities.
  4. Non-pressure Applications: The versatile nature of high leaded tin bronzes, like C94300, renders them suitable for non-pressure settings, ensuring operational safety.
  5. High Speed – Light Load Bushings: Alloys such as C935 are well-suited for high-speed, low-load scenarios, offering reliable performance.
  6. Mild Acid Applications: The corrosion resistance of these bronzes, exemplified by C93800, suits environments with mild acid exposure.
  7. Machinability and Anti-Seizing Properties: C93600 and similar alloys provide machinability and anti-seizing properties, enhancing overall performance.
  8. High Speed – Heavy Pressure Bushings: C93700 demonstrates resilience in high-speed, heavy-pressure bushing requirements.
  9. Bridge Parts and Bearing Plates: These alloys, including C93800, contribute to structural integrity, showcasing their adaptability in demanding settings.
  10. Low Friction – Moderate Pressure Bushings: For applications demanding low friction under moderate pressure, alloys like C93800 present an ideal solution.
  11. Railroad Applications: High leaded tin bronzes’ robustness, such as C93800, serves the railroad industry, ensuring reliable performance.

The Centrifugally Cast – High Leaded Tin Bronzes encompass a comprehensive range of compositions, catering to various applications and industries, showcasing their adaptability and robustness.

Centrifugally Cast – Tin Bronzes Alloy Chart

AlloyCross IndexNominal Chemical CompositionTypical Mechanical PropertiesTypical Uses
C90300225Cu 88%, Sn 8%, Zn 4%Tensile: 40,000 psi Yield: 18,000 psi Elongation: 20% BHN: 70 @ 500 KGBearings, pump bodies
C90500210Cu 88%, Sn 10%, Zn 2%Tensile: 40,000 psi Yield: 18,000 psi Elongation: 20% BHN: 75 @ 500 KGGears, bushings
C90700205Cu 89%, Sn 11%Tensile: 35,000 psi Yield: 18,000 psi Elongation: 10% BHN: 80 @ 500 KGValves, pump impellers
C91600Cu 88%, Sn 10.5%, Zn 1.5%Tensile: 35,000 psi Yield: 17,000 psi Elongation: 10% BHN: 85 @ 500 KGPiston rings, worm wheels
C92200245Cu 88%, Sn 6%, Pb 1.5%, Zn 4.5%Tensile: 34,000 psi Yield: 16,000 psi Elongation: 22% BHN: 65 @ 500 KGBearings, steam fittings
C92300230Cu 87%, Sn 8%, Pb 1%, Zn 4%Tensile: 36,000 psi Yield: 16,000 psi Elongation: 18% BHN: 70 @ 500 KGBearings, piston rings
C92500250Cu 87%, Sn 11%, Pb 1%, Zn 2%, Ni 1%Tensile: 35,000 psi Yield: 18,000 psi Elongation: 10% BHN: 80 @ 500 KGWorm wheels, structural castings
C92700206Cu 88%, Sn 10%, Pb 2%Tensile: 35,000 psi Yield: 18,000 psi Elongation: 10% BHN: 77 @ 500 KGBearings, pump bodies

Centrifugally Cast – Tin Bronzes:

Tin bronzes offer a range of compositions tailored for specific applications, combining corrosion resistance, wear resistance, and reasonably high strength. These alloys excel in various industrial settings, especially in sleeve bearings where they wear well against steel.

Typical Uses:

  1. Bearings: Tin bronze alloys like C90300, C92200, and C92700 are widely used for bearings, providing corrosion resistance and wear resistance.
  2. Pump Bodies: C90300 and C92700 alloys are suitable for pump bodies, offering a combination of strength and corrosion resistance.
  3. Gears and Bushings: C90500 alloys find utility in gears and bushings, providing good wear resistance and reasonable strength.
  4. Valves and Pump Impellers: C90700 alloys are ideal for valves and pump impellers, showcasing their corrosion resistance and durability.
  5. Piston Rings and Worm Wheels: C91600 and C92500 alloys are well-suited for piston rings and worm wheels, offering both wear resistance and structural integrity.
  6. Bearings for Heavy Loads and Relatively Low Speeds: Various tin bronze alloys, such as C90300 and C91600, serve as suitable choices for bearings in applications with heavy loads and relatively low speeds.

The Centrifugally Cast – Tin Bronzes encompass a comprehensive range of compositions tailored for specific industrial needs, showcasing their versatility and performance in various applications.

Centrifugally Cast – Leaded Tin Bronzes Alloy Chart

AlloyCross IndexNominal Chemical CompositionTypical Mechanical PropertiesTypical Uses
C83600115Cu 85%, Sn 5%, Pb 5%, Zn 5%Tensile: 30,000 psi Yield: 14,000 psi Elongation: 20% BHN: 60 @ 500 KGMedium pressure hydraulic & steam to 550 F, structural castings
C84400123Cu 80%, Sn 3%, Pb 7%, Zn 9%Tensile: 29,000 psi Yield: 13,000 psi Elongation: 18% BHN: 55 @ 500 KGHigh-pressure hydraulic and steam equipment, pump pistons
C92800295Cu 80%, Sn 16%, Pb 5%Tensile: 40,000 psi (Typical) Yield: 30,000 psi (Typical) Elongation: 1% BHN: 80 (Typical) @ 500 KGMarine and ornamental castings
C93200315Cu 83%, Sn 7%, Pb 7%, Zn 3%Tensile: 30,000 psi Yield: 14,000 psi Elongation: 15% BHN: 65 @ 500 KGLead screw nuts
C93400310Cu 84%, Sn 8%, Pb 8%Tensile: 25,000 psi Yield: 12,000 psi Elongation: 8% BHN: 60 @ 500 KGLead screw nuts
C93500326Cu 85%, Sn 5%, Pb 9%, Zn 1%Tensile: 28,000 psi Yield: 12,000 psi Elongation: 15% BHN: 60 @ 500 KGLead screw nuts
C93600Cu 81%, Sn 7%, Pb 12%Tensile: 32,000 psi Yield: 16,000 psi Elongation: 10% BHN: 65 @ 500 KGPump pistons
C93700305Cu 80%, Sn 10%, Pb 10%Tensile: 30,000 psi Yield: 12,000 psi Elongation: 15% BHN: 60 @ 500 KGPump pistons, structural castings

Centrifugally Cast – Leaded Tin Bronzes:

Leaded tin bronzes offer a range of compositions tailored for specific applications, prioritizing machinability and pressure tightness. These alloys encompass a variety of mechanical properties to meet diverse industrial needs. Notably, C932 (SAE 660) is a widely used alloy with excellent wear performance and other advantageous properties.

Typical Uses:

  1. Medium Pressure Hydraulic & Steam to 550 F: C83600’s composition makes it suitable for medium-pressure hydraulic and steam applications, maintaining its integrity even at elevated temperatures.
  2. High-Pressure Hydraulic and Steam Equipment: C84400 and similar alloys excel in high-pressure hydraulic and steam equipment, providing strength and durability.
  3. Lead Screw Nuts: C93200, C93400, and C93500 are optimal choices for lead screw nuts, combining machinability and pressure tightness.
  4. Marine and Ornamental Castings: C92800 alloys find utility in marine and ornamental castings, showcasing both aesthetics and functionality.
  5. Structural Castings: C93700 and C83600 contribute to structural integrity in various applications, ensuring reliable performance.
  6. Pump Pistons: C93600 alloys, with their specific composition, make them well-suited for pump pistons, handling mechanical loads effectively.

The Centrifugally Cast – Leaded Tin Bronzes encompass a range of compositions tailored to meet specific industrial requirements, showcasing their versatility and performance in various applications.

Centrifugally Cast – Yellow Brass alloys chart

AlloyCross IndexNominal Chemical CompositionTypical Mechanical Properties
C85200400Cu 72%, Sn 1%, Pb 3%, Zn 24%Tensile: 35,000 psi Yield: 12,000 psi Elongation: 25% BHN: 45 @ 500 KG
C85300407Cu 70%, Ni 30%Tensile: 35,000 psi (Typical) Yield: 11,000 psi (Typical) Elongation: 40% BHN: 54 (Typical) @ 500 KG
C85400403Cu 68%, Sn 1%, Pb 3%, Zn 28%Tensile: 30,000 psi Yield: 11,000 psi Elongation: 20% BHN: 50 @ 500 KG
C85700405.2Cu 62%, Sn 1%, Pb 1%, Zn 36%Tensile: 40,000 psi Yield: 14,000 psi Elongation: 15% BHN: 75 @ 500 KG

Centrifugally Cast – Yellow Brass:

Yellow brass alloys, with their varying compositions, offer a balance of copper, tin, lead, zinc, and nickel to achieve specific properties. These alloys find utility in various applications, providing a combination of strength, corrosion resistance, and other advantageous characteristics.

Typical Uses:

  1. C85200: This alloy is suitable for applications requiring a balance of strength and malleability, making it useful for components that need to withstand mechanical stress.
  2. C85300: Yellow brass with a higher nickel content offers improved corrosion resistance and durability, making it well-suited for environments with exposure to corrosive elements.
  3. C85400: This alloy provides a balance of strength and formability, making it suitable for applications where both properties are essential.
  4. C85700: With a higher copper content, this alloy offers excellent strength and corrosion resistance, making it ideal for applications that require durability and longevity.

Centrifugally Cast – Yellow Brass alloys cater to a wide range of applications, showcasing their versatility and adaptability to different industrial needs.

Centrifugally Cast – Manganese Bronze Alloys Chart

AlloyCross IndexNominal Chemical CompositionTypical Mechanical PropertiesTypical Uses
C86200423Cu 64%, Zn 26%, Al 4%, Fe 3%, Mn 3%Tensile: 90,000 psi Yield: 45,000 psi Elongation: 18% BHN: 180 @ 500 KGBrackets, shafts, structural parts
C86300424Cu 63%, Zn 25%, Al 6%, Fe 3%, Mn 3%Tensile: 110,000 psi Yield: 60,000 psi Elongation: 12% BHN: 225 @ 500 KGSlow-speed heavy load bearings, gibs and cams
C86500421Cu 58%, Zn 39%, Al 1%, Fe 1%, Mn 1%Tensile: 65,000 psi Yield: 25,000 psi Elongation: 20% BHN: 100 @ 500 KGPropellers, marine fittings
C86400420Cu 59%, Sn 1%, Pb 1%, Zn 40%Tensile: 60,000 psi Yield: 20,000 psi Elongation: 15% BHN: 105 @ 500 KGMachinery parts substituting for steel and malleable iron
C86700422Cu 58%, Sn 1%, Pb 1%, Zn 34%Tensile: 80,000 psi Yield: 32,000 psi Elongation: 15% BHN: 155 @ 500 KGLight duty gears, valve stems

Centrifugally Cast – Manganese Bronzes:

Manganese bronze alloys are renowned for their exceptional strength and are well-suited for heavy-duty mechanical products. These alloys offer moderately good corrosion resistance, making them suitable for various industrial applications.

Typical Uses:

  1. C86200: This alloy finds use in brackets, shafts, and structural parts, showcasing its strength and reliability.
  2. C86300: Slow-speed heavy load bearings and components like gibs and cams benefit from the superior strength and durability of this alloy.
  3. C86500: Marine fittings, propellers, and other components exposed to salt and fresh water utilize this alloy’s corrosion resistance.
  4. C86400: Machinery parts that substitute for steel and malleable iron benefit from the strength and versatility of this alloy.
  5. C86700: Light duty gears, valve stems, and similar components find utility in this alloy due to its strength and corrosion resistance.

Centrifugally Cast – Manganese Bronzes offer an array of compositions tailored to meet specific industrial requirements, showcasing their strength, durability, and adaptability in various applications.

Centrifugally Cast – Aluminum Bronze Alloy Chart

AlloyCross IndexNominal Chemical CompositionTypical Mechanical PropertiesTypical Uses
C95200415ACu 88%, AI 9%, Fe 3%Tensile: 65,000 psi Yield: 25,000 psi Elongation: 20% BHN: 125 @ 500 KGGun mounting, landing gear parts
C95300415BCu 89%, AI 10%, Fe 1%Tensile: 65,000 psi Yield: 25,000 psi Elongation: 20% BHN: 140 @ 500 KGPickling tanks, marine engine propellers
C95300HTCu 89%, AI 10%, Fe 1%Tensile: 80,000 psi Yield: 40,000 psi Elongation: 12% BHN: 160 @ 500 KGHigh-strength applications
C95400415CCu 85%, AI 11%, Fe 4%Tensile: 75,000 psi Yield: 30,000 psi Elongation: 12% BHN: 170 @ 500 KGGears, cams, stripper nuts
C95400-HTCu 85%, AI 11%, Fe 4%Tensile: 90,000 psi Yield: 45,000 psi Elongation: 6% BHN: 190 @ 500 KGHigh-strength applications
C95500415DCu 81%, AI 11%, Fe 4%, Ni 4%Tensile: 90,000 psi Yield: 40,000 psi Elongation: 6% BHN: 190 @ 500 KGMining machine parts, spur and low-speed worm gears
C95500-HTCu 81%, AI 11%, Fe 4%, Ni 4%Tensile: 110,000 psi Yield: 60,000 psi Elongation: 5% BHN: 200 @ 500 KGHigh-strength applications
C95800Cu 81%, AI 9%, Fe 4%, Ni 5%, Mn 1%Tensile: 85,000 psi Yield: 35,000 psi Elongation: 15% BHN: 159 @ 500 KGMarine hardware, propellers, cable connectors, valves
C95900Cu 82%, AI 13%, Fe 4%, Mn 1%Tensile: 241,000 psi (Min.) Yield: Not specifiedAerospace applications

Centrifugally Cast – Aluminum Bronzes:

Aluminum bronzes and nickel aluminum bronzes offer exceptional corrosion resistance, high mechanical properties, and versatility for various industrial applications. These alloys are particularly well-suited for heavy-duty applications and environments with high corrosion exposure.

Typical Uses:

  1. C95200: This alloy is used for gun mounting, landing gear parts, and other heavy-duty mechanical components.
  2. C95300: Pickling tanks, marine engine propellers, and similar applications benefit from its excellent corrosion resistance.
  3. C95300HT: High-strength applications that require corrosion resistance and mechanical integrity.
  4. C95400: Gears, cams, stripper nuts, and other components benefit from the combination of strength and corrosion resistance.
  5. C95400-HT: High-strength applications where superior mechanical properties are required.
  6. C95500: Mining machine parts, spur and low-speed worm gears utilize its durability and mechanical strength.
  7. C95500-HT: High-strength applications requiring exceptional mechanical properties.
  8. C95800: Marine hardware, propellers, cable connectors, and valves benefit from its high corrosion resistance.
  9. C95900: Aerospace applications where high strength and corrosion resistance are crucial.

Centrifugally Cast – Aluminum Bronzes provide a wide range of compositions suitable for heavy-duty mechanical products and applications requiring corrosion resistance and exceptional mechanical properties.

Elevate Your Operations Today – Seize the Opportunity

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Experience the power of bronze alloy composition – unlock efficiency, enhance durability, and redefine success in your industry. Upgrade to Advance Bronze’s self-lubricating plain bearings now!

Visit our Bronze Alloy Chart for more insights into the remarkable world of bronze alloy composition. Don’t wait. Elevate your machinery’s potential today!

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