Cupro B2

C17200 is a high-performance copper alloy known for its unique combination of strength, electrical conductivity, and corrosion resistance. It is also referred to as Beryllium Copper, and is often used in a wide range of applications where these properties are required. Some of the typical uses of C17200 include electrical connectors, electrical switches, springs, and high-stress components in the aerospace and defense industries.

At Tough Copper Alloys, we offer C17200 in various forms, including rods, sheets, and plates, to meet the needs of our customers. Our team of experts can help you determine the best form of C17200 for your application and provide you with the high-quality materials you need to get the job done. Contact us today to learn more about C17200 and how we can help you find the right solution for your project.

Categories: , Tags: , , , , , , , , ,
REQUEST a QUOTE

    Material Name

    Your Name

    Your email

    Temper

    Shape/Form

    Size/Dimension

    Length

    Quantity/Lbs

    Your message (optional)

    Description

    What is “C17200” Material?

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that offers unique mechanical and physical properties. With its high strength and hardness, C17200 is an ideal choice for demanding applications in industries such as aerospace, defense, and electronics.

    One of the standout features of C17200 is its excellent electrical and thermal conductivity, making it a popular choice for electrical components and heat exchangers. Additionally, C17200 has good corrosion resistance, making it suitable for use in harsh environments.

    The “Cube2” grade of C17200 material is particularly sought after due to its exceptional hardness and strength properties. This grade is commonly used in applications such as springs, electrical connectors, and high-stress components.

    In conclusion, C17200 is a versatile and high-performing material that offers unique properties for a wide range of applications. Whether you’re in the aerospace, defense, or electronics industries, C17200 can help you meet the demands of your most challenging projects. Contact us today to learn more about the properties and uses of C17200 material, including the “Cube2” grade.

    Application Areas & Industries of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that offers unique mechanical and physical properties for a variety of applications. With its high strength, hardness, and electrical and thermal conductivity, C17200 is a go-to choice for industries that require reliable and efficient materials.

    Some of the key industries and application areas that utilize C17200 include:

    1. Aerospace: C17200 is often used in aerospace components such as actuators, fasteners, and electrical connectors due to its high strength and excellent electrical conductivity.
    2. Defense: The high strength and hardness of C17200 make it ideal for use in defense applications, including military hardware and weapons systems.
    3. Electronics: The excellent thermal and electrical conductivity of C17200 make it a popular choice for electrical components, heat exchangers, and other electronics applications.
    4. Industrial: With its corrosion resistance and high hardness, C17200 is often used in high-stress components, springs, and other industrial applications.

    Overall, C17200 is a versatile and high-performing material that offers unique properties for a wide range of applications. Whether you’re in aerospace, defense, electronics, or another industry, C17200 can help you meet the demands of your most challenging projects. Contact us today to learn more about the properties and uses of C17200 material.

    Common Fabrication Processes of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that is widely used in a variety of industries. To meet the demands of these industries, C17200 must undergo a series of fabrication processes to shape it into the desired form. Here are some of the most common C17200 fabrication processes:

    1. Hot Working: C17200 is readily hot worked and can be forged, rolled, or extruded to produce the desired shape.
    2. Cold Working: C17200 can be cold worked to increase its strength and hardness, making it ideal for applications that require these properties.
    3. Machining: C17200 can be machined to produce close tolerance parts, such as electrical connectors and fasteners.
    4. Welding: C17200 is easily welded using conventional welding techniques, making it a versatile option for fabricating components.
    5. Heat Treatment: C17200 can be heat treated to improve its properties, such as strength and hardness, for specific applications.

    In conclusion, C17200 is a high-performance copper alloy that can be fabricated using a variety of processes. Whether you need to forge, roll, extrude, machine, weld, or heat treat C17200, these processes can help you produce the desired shape and properties for your specific application. Contact us today to learn more about the fabrication processes of C17200 material.

    Chemical Composition of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that offers unique mechanical and physical properties. The chemical composition of C17200 is carefully balanced to provide the desired properties for a wide range of applications. Here is a look at the key elements in the C17200 chemical composition:

    1. Copper: The base element in C17200, copper provides the alloy with its electrical and thermal conductivity.
    2. Beryllium: The addition of beryllium to the alloy enhances its strength and hardness, making it ideal for high-stress applications.
    3. Nickel: Nickel is added to C17200 to improve its corrosion resistance and to provide stability during fabrication.
    4. Iron: Iron is added to C17200 to help balance the chemical composition and to improve its mechanical properties.

    In conclusion, the chemical composition of C17200 is carefully balanced to provide the desired properties for a wide range of applications. Whether you need high strength, hardness, electrical conductivity, thermal conductivity, or corrosion resistance, C17200 can meet your needs. Contact us today to learn more about the chemical composition of C17200 material.

    Elements
    Cu(1,2) Al Be Co(3) Si
    (1) Cu + Sum of Named Elements 99.5% min.
    (2) Cu value includes Ag.
    (3) Ni + Co 0.20% min.: Ni + Fe + Co 0.6% max.
    Min (%) 1.80 0.20
    Max (%) Rem 0.20 2.00 0.20

    Physical Properties of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that offers a unique combination of mechanical and physical properties. These properties make C17200 ideal for a wide range of applications, from electrical connectors to high-stress components. Here is a look at the key physical properties of C17200:

    1. Strength: C17200 is known for its high strength and hardness, making it ideal for high-stress applications.
    2. Electrical Conductivity: C17200 is highly conductive, making it ideal for electrical applications where conductivity is critical.
    3. Thermal Conductivity: C17200 is also highly conductive of heat, making it ideal for applications where heat dissipation is critical.
    4. Corrosion Resistance: C17200 offers good resistance to corrosion, making it ideal for applications where corrosion is a concern.
    5. Ductility: Despite its high strength and hardness, C17200 is also highly ductile, making it easier to fabricate and form into the desired shape.

    In conclusion, C17200 offers a unique combination of mechanical and physical properties that make it ideal for a wide range of applications. Whether you need high strength, hardness, electrical conductivity, thermal conductivity, or corrosion resistance, C17200 can meet your needs. Contact us today to learn more about the physical properties of C17200 material.

    Fabrication Properties of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that offers a unique combination of mechanical and physical properties. These properties make C17200 ideal for a wide range of applications, from electrical connectors to high-stress components. However, it’s important to understand the key fabrication properties of C17200 when working with this material. Here is a look at the key fabrication properties of C17200:

    1. Weldability: C17200 can be welded using standard welding techniques, but it’s important to follow proper procedures to ensure the integrity of the material.
    2. Machinability: C17200 can be machined using standard machining techniques, but it’s important to use the proper tools and techniques to achieve the desired results.
    3. Formability: C17200 is highly formable, making it easier to fabricate and form into the desired shape.
    4. Heat Treatability: C17200 can be heat treated to achieve the desired mechanical properties, but it’s important to follow proper heat treatment procedures.

    In conclusion, C17200 offers a unique combination of mechanical and physical properties that make it ideal for a wide range of applications. However, it’s important to understand the key fabrication properties of C17200 when working with this material. Contact us today to learn more about the fabrication properties of C17200 material.

    Applicable Specifications of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that is widely used in a range of applications. To ensure the quality and consistency of C17200 material, it’s important to understand the applicable specifications. Here is a look at the key standards for C17200:

    1. ASTM B196: This specification covers the requirements for C17200 beryllium copper rods, bars, and shapes.
    2. AMS 4533: This specification covers the requirements for C17200 beryllium copper plate, sheet, and strip.
    3. SAE J461: This specification covers the requirements for C17200 beryllium copper wire for electrical applications.
    4. SAE J463: This specification covers the requirements for C17200 beryllium copper tube for hydraulic and pneumatic systems.

    In conclusion, C17200 is subject to a range of applicable specifications that ensure the quality and consistency of the material. Whether you’re using C17200 for rods, bars, plates, sheets, strips, wire, or tube, it’s important to understand the key standards that apply. Contact us today to learn more about the applicable specifications of C17200 material.

    Thermal Properties of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that offers a unique combination of thermal and physical properties. These properties make C17200 ideal for a wide range of applications, from electrical connectors to high-stress components. However, it’s important to understand the key thermal properties of C17200 when working with this material. Here is a look at the key thermal properties of C17200:

    1. Thermal Conductivity: C17200 has a high thermal conductivity, making it ideal for applications where heat dissipation is a concern.
    2. Thermal Expansion: C17200 has a relatively low coefficient of thermal expansion, making it ideal for applications where dimensional stability is a concern.
    3. Melting Point: C17200 has a relatively high melting point, making it ideal for high-temperature applications.
    4. Heat Resistance: C17200 has excellent heat resistance, making it ideal for applications where high temperatures are a concern.

    In conclusion, C17200 offers a unique combination of thermal and physical properties that make it ideal for a wide range of applications. However, it’s important to understand the key thermal properties of C17200 when working with this material. Contact us today to learn more about the thermal properties of C17200 material.

    Typical Uses of “C17200”

    C17200, also known as Beryllium Copper, is a high-performance copper alloy that is known for its unique combination of strength, electrical conductivity, and corrosion resistance. This versatility makes C17200 ideal for a wide range of applications across multiple industries. Here is a look at the typical uses of C17200:

    1. Electrical Connectors: C17200 is often used in electrical connectors due to its excellent electrical conductivity and strength.
    2. Aerospace: C17200 is commonly used in aerospace applications due to its high strength-to-weight ratio and heat resistance.
    3. Automotive: C17200 is frequently used in automotive applications due to its high strength and corrosion resistance.
    4. Industrial Equipment: C17200 is often used in industrial equipment due to its excellent electrical conductivity and heat resistance.
    5. Medical Devices: C17200 is sometimes used in medical devices due to its biocompatibility and high strength.

    In conclusion, C17200 is a versatile material that is ideal for a wide range of applications across multiple industries. Whether you’re looking for a strong electrical connector, high-strength aerospace component, or heat-resistant industrial equipment, C17200 is an excellent choice. Contact us today to learn more about the typical uses of C17200 material.

    Equivalent of “C17200”

    If you’re in the market for a high-performance copper alloy, you may have come across the term “C17200.” This copper alloy, also known as Beryllium Copper, is known for its unique combination of strength, electrical conductivity, and corrosion resistance. However, not every application may require the specific properties of C17200. In such cases, you may want to consider alternatives that are equivalent in terms of their performance.

    In this article, we will explore the equivalent of C17200 and what other options you may have if you’re looking for a copper alloy that can handle your specific application needs.

    1. C17300: This copper alloy is known for its high electrical conductivity and is often used in applications where electrical conductivity is a priority.
    2. C18150: This copper alloy is known for its high electrical conductivity and thermal conductivity, making it ideal for applications that require both.
    3. C70600: This copper nickel alloy is known for its high strength, corrosion resistance, and good thermal conductivity.
    4. C83600: This leaded tin bronze alloy is known for its good bearing properties, high strength, and good corrosion resistance.

    These are just a few of the alternative options available to you if you’re looking for an equivalent of C17200. When choosing a copper alloy, it’s important to consider the specific requirements of your application, such as strength, conductivity, corrosion resistance, and more, in order to select the right material for your needs.

    In conclusion, C17200 is a high-performance copper alloy that is known for its unique combination of properties. However, if you’re in the market for an equivalent material, there are several alternatives available, each with their own set of properties that may better suit your specific application requirements. Contact us today to learn more about the equivalent of C17200 and how we can help you find the right material for your needs.

    MECHANICAL PROPERTIES

    MECHANICAL PROPERTIES

    Form Temper Temper Code Tensile Strength
    (ksi)    		 YS-0.2% Offset
    (ksi)    		 Elongation
    (%)    		 Rockwell B scale Rockwell C scale Rockwell 30T scale Torsion Modulus
    (ksi)    		 Fatigue Strength**
    (ksi)    		 Section Size
    (in)
    * Measured at room temperature, 68°F (20°C).** Fatigue Strength: 100 x 106 cycles, unless indicated as [N] x 106.
    Flat Products 1/2 Hard and Precipitation Heat Treated TH02 195 Typ 175 Typ 3 Typ 41 Typ 44 Typ 0.188
    1/4 Hard and Precipitation Heat Treated TH01 185 Typ 165 Typ 4 Typ 40 Typ 40 Typ 0.188
    Hard and Precipitation Heat Treated TH04 200 Typ 180 Typ 2 Typ 42 Typ 45 Typ 0.188
    Mill-hardened Temper, TM – 1/2 Hard TM02 128 Typ 105 Typ 15 Typ 27 Typ 0.188
    Mill-hardened Temper, TM – 1/2 Hard TM00 105 Typ 82 Typ 20 Typ 27 Typ 0.188
    Mill-hardened Temper, TM – 1/2 Hard TM01 115 Typ 92 Typ 17 Typ 23 Typ 0.188
    Mill-hardened Temper, TM – Hard TM04 142 Typ 122 Typ 12 Typ 32 Typ 0.188
    Mill-hardened Temper, TM – SHM TM05 150 Min 125 Min 9 Min 31 Min
    Mill-hardened Temper, TM – XHMS Spring TM08 182 Typ 160 Typ 6 Typ 0.188
    Mill-hardened Temper, TM -XHM – Extra Hard TM06 168 Typ 148 Typ 7 Typ 37 Typ 0.188
    Precipitation Hardened TF00 175 Typ 155 Typ 6 Typ 38 Typ 36 Typ 0.188
    Solution Heat Treated TB00 70 Typ 32 Typ 45 Typ 60 Typ 58 Typ
    Solution Heat Treated and Cold Worked: 1/2 Hard TD02 92 Typ 82 Typ 15 Typ 92 Typ 77 Typ 0.188
    Solution Heat Treated and Cold Worked: 1/4 Hard TD01 80 Typ 70 Typ 25 Typ 80 Typ 70 Typ 0.188
    Solution Heat Treated and Cold Worked: Hard TD04 110 Typ 104 Typ 5 Typ 99 Typ 81 Typ 0.188
    Rod Hard and Precipitation Heat Treated TH04 205 Typ 160 Typ 2 Typ 42 Typ 0.375
    Hard and Precipitation Heat Treated TH04 200 Typ 155 Typ 2 Typ 41 Typ 0.375
    Hard and Precipitation Heat Treated TH04 195 Typ 145 Typ 4 Typ 41 Typ 7.3 Typ 3
    Precipitation Hardened TF00 182 Typ 130 Typ 3 Typ 39 Typ 55 Typ 3
    Precipitation Hardened TF00 182 Typ 145 Typ 4 Typ 39 Typ
    Solution Heat Treated TB00 72 Typ 20 Typ 20 Typ 65 Typ
    Solution Heat Treated and Cold Worked: Hard TD04 110 Typ 75 Typ 8 Typ 95 Typ 0.375
    Solution Heat Treated and Cold Worked: Hard TD04 103 Typ 75 Typ 8 Typ 94 Typ 3
    Solution Heat Treated and Cold Worked: Hard TD04 108 Typ 75 Typ 8 Typ 95 Typ 1
    Wire 1/2 Hard and Precipitation Heat Treated TH02 200 Typ 185 Typ 1 Typ
    1/4 Hard and Precipitation Heat Treated TH01 190 Typ 175 Typ 2 Typ
    3/4 Hard and Precipitation Heat Treated TH03 210 Typ 195 Typ 1 Typ
    Hard and Precipitation Heat Treated TH04 212 Typ 195 Typ 1 Typ
    Precipitation Hardened TF00 178 Typ 160 Typ 3 Typ
    Solution Heat Treated TB00 68 Typ 28 Typ 35 Typ
    Solution Heat Treated and Cold Worked: 1/2 Hard TD02 122 Typ 100 Typ 5 Typ
    Solution Heat Treated and Cold Worked: 1/4 Hard TD01 102 Typ 82 Typ 10 Typ
    Solution Heat Treated and Cold Worked: 3/4 Hard TD03 142 Typ 120 Typ 2 Typ
    Solution Heat Treated and Cold Worked: Hard TD04 152 Typ 125 Typ 1 Typ