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Aleación maestra a base de cobre
Material: CuCo, CuMn, CuSi, CuZr, CuZn, CuMnFe, CuNiFe, CuLa, CuNd, CuEr, CuLaCe, etc.
Forma: Lingote Waffle/Lingote Cut-Waffle/Lingote Notch-Bar/Lingote Shot
Copper-Based Master Alloy is a high-performance alloy made from copper in precise proportions with other metal elements (e.g., Ti, Mg, Zr, rare earth elements, etc.). We can adjust the composition ratio according to specific requirements. As a leading supplier and manufacturer of premium master alloy products, Heeger Materials leverages advanced technology to deliver high-quality copper-based master alloys for various applications.
O envíenos un correo electrónico a max@heegermaterials.com.Copper-Based Master Alloy Data Sheet
| Material: | CuTi, CuTiAl, CuCo, CuMn, CuNi, CuZr, CuZn, CuMnFe, CuNiFe, CuLa, CuNd, CuEr, CuLaCe, etc., or Customized |
| Pureza: | >99% |
| Dimensiones: | Personalizado |
| Forma: | Lingote Waffle, lingote Cut-Waffle, lingote Notch-Bar, lingote Shot, etc. |
¿Qué es una aleación Mater?
Master alloy is a pre-alloyed material consisting of two or more metal elements, usually with one metal as the base and one or more high-content alloying elements. It is mainly used as an additive to adjust and optimize the composition and properties of the target alloy. It can also be used as a deoxidant, degasifier, and desulphurizing agent. A Master Alloy can be referred to as a “hardener”, “grain refiner”, or “modifier depending on the different applications. HM can provide high-quality aleaciones maestras a base de magnesio, aluminum-based master alloys, copper-based master alloys, aleaciones maestras a base de níquel, aleaciones maestras a base de cobaltoaleaciones maestras a base de hierro, etc.
Why Are Master Alloys Added to Metal Melts?
- Selective Composition Adjustment: The master alloys can modify the composition of the molten metal, allowing it to achieve a desired chemical specification.
- Specific Performance Requirements: The master alloys can change the microstructure of a metal during casting and solidification to change its castability, surface finish, electrical conductivity, mechanical strength, or ductility.
Aleación maestra a base de cobre
Copper-based master Alloys are made from copper and other metal elements (e.g., Ti, Mg, Zr, rare earth elements, etc.) through advanced melting and casting processes, ensuring high-quality products with high purity, uniform organization, and stable chemical composition. These master alloy products can enhance the properties of copper alloys to increase fluidity, hardness, color, ductility, etc. HM can offer customized solutions for adjusting the composition ratio to meet specific requirements.
Cu-Ti Master Alloy Cu-Zr Master Alloy Cu-Mg Master Alloy
Copper-Based Master Alloy Features
- Composición Uniformidad: El preciso proceso de fusión garantiza una distribución uniforme de los elementos de aleación y evita la segregación composicional.
- Multifuncionalidad: La composición de la aleación maestra puede ajustarse en función de las necesidades para satisfacer los requisitos de rendimiento de diferentes aleaciones.
- Varias formas: Podemos suministrar muchas formas según los requisitos del cliente, tales como lingote waffle, lingote waffle cortado, barra con muesca, granalla, etc.
Copper-Based Master Alloy Advanced Production Line
HM dispone de avanzadas líneas de producción con tecnología punta e ingeniería de precisión, que garantizan una calidad y un rendimiento constantes en cada lote. Podemos ofrecer capacidades de personalización para adaptar la composición, la estructura del grano y las propiedades mecánicas a las demandas específicas de cada aplicación. Nuestro equipo de expertos le ofrecerá una solución profesional si necesita una mayor resistencia, una mejor resistencia a la corrosión o un mejor rendimiento a altas temperaturas.
- Preparación de materias primas: Seleccionar las materias primas metálicas adecuadas según los requisitos, lavarlas, secarlas y triturarlas para garantizar la ausencia de impurezas y alcanzar el tamaño de partícula requerido.
- Dosificación precisa: Pesar y premezclar con precisión las materias primas según los requisitos de la aleación objetivo.
- Fundición: La fusión se lleva a cabo utilizando equipos como hornos de inducción, hornos de arco eléctrico u hornos de resistencia, con la adición de gases protectores (por ejemplo, argón) para evitar la oxidación si es necesario. Garantizar la distribución uniforme de los componentes de la aleación mediante agitación mecánica o electromagnética.
- Fundición: La aleación líquida fundida se vierte en moldes y se enfría para formar lingotes.
- Tratamiento térmico: El tratamiento térmico de los lingotes elimina la segregación composicional y las tensiones internas y mejora la uniformidad de la organización.
- Procesado y moldeado: Cortar o triturar el lingote para darle la forma y el tamaño deseados.
Copper-Based Master Alloy Products List
| Referencia | Nombre de la aleación maestra | Molecular formula | Relación de aleación maestra | Forma |
| HMMA1554 | Copper Aluminium Master Alloy | CuAl | Cu-10Al, Cu-50Al, Cu-60Al, Cu-70Al, Cu-75Al, Cu-80Al, Customized |  Gofre-ingot  Barra de muescas  Cut-Waffle Ingot  Varilla  Lingote  Disparo |
| HMMA1555 | Copper Aluminium-boron Master Alloy | CuAlB | Cu-Al-B, Customized | |
| HMMA1556 | Copper Aluminium-nickel Master Alloy | CuAlNi | Cu-Al-Ni, Customized | |
| HMMA1557 | Copper Aluminium-silicon Master Alloy | CuAlSi | Cu-Al-Si, Customized | |
| HMMA1558 | Copper Antimony Master Alloy | CuSb | Cu-0.5Sb, Customized | |
| HMMA1559 | Copper Arsenic Master Alloy | CuAs | Cu-0.3As, Customized | |
| HMMA1560 | Copper Bismuth Master Alloy | CuBi | Cu-0.25Bi, Customized | |
| HMMA1561 | Copper Boron Master Alloy | CuB | Cu-0.02B, Customized | |
| HMMA1562 | Copper Calcium Master Alloy | CuCa | Cu-5Ca, Cu-10Ca, Customized | |
| HMMA1563 | Copper Cerium Master Alloy | CuCe | Cu-0.1Ce, Customized | |
| HMMA1564 | Copper Chromium Master Alloy | CuCr | Cu-5Cr, Cu-10Cr, Customized | |
| HMMA1565 | Copper Cobalt Master Alloy | CuCo | Cu-10Co, Cu-15Co, Cu-20Co, Cu-50Co, Customized | |
| HMMA1566 | Copper Germanium Master Alloy | CuGe | Cu-Ge, Customized | |
| HMMA1567 | Copper Iron Master Alloy | CuFe | Cu-10Fe, Cu-15Fe, Cu-20Fe, Cu-25Fe, Cu-30Fe, Customized | |
| HMMA1568 | Copper Iron Aluminium Master Alloy | CuFeAl | Cu-Fe-Al, Customized | |
| HMMA1569 | Copper Lead Master Alloy | CuPb | Cu-Pb, Customized | |
| HMMA1570 | Copper Lithium Master Alloy | CuLi | Cu-0.02Li, Customized | |
| HMMA1571 | Copper Magnesium Master Alloy | CuMg | Cu-10Mg, Cu-15Mg, Cu-20Mg, Cu-35Mg, Cu-40Mg, Cu-50Mg, Customized | |
| HMMA1572 | Copper Magnesium Cerium Master Alloy | CuMnCe | Cu-Mg-Ce, Customized | |
| HMMA1573 | Copper Manganese Master Alloy | CuMn | Cu-20Mn, Cu-30Mn, Cu-50Mn, Customized | |
| HMMA1574 | Copper Manganese Cobalt Master Alloy | CuMnCo | Cu-Mn-Co, Customized | |
| HMMA1575 | Copper Manganese Iron Master Alloy | CuMnFe | Cu-Mn-Fe, Customized | |
| HMMA1576 | Copper Manganese Nickel Master Alloy | CuMnNi | Cu-Mn-Ni, Customized | |
| HMMA1577 | Copper Manganese Phosphorus Master Alloy | CuMnP | Cu-Mn-P, Customized | |
| HMMA1578 | Copper Manganese Silicon Master Alloy | CuMnSi | Cu-Mn-Si, Customized | |
| HMMA1579 | Copper Nickel Master Alloy | CuNi | Cu-0.3Ni, Customized | |
| HMMA1580 | Copper Nickel Iron Master Alloy | CuNiFe | Cu-Ni-Fe, Customized | |
| HMMA1581 | Copper Nickel Niobium Master Alloy | CuNiNb | Cu-Ni-Nb, Customized | |
| HMMA1582 | Copper Nickel Silicon Master Alloy | CuNiSi | Cu-Ni-Si, Customized | |
| HMMA1583 | Copper Phosphorus Master Alloy | CuP | Cu-8P, Cu-10P, Cu-15P, Customized | |
| HMMA1584 | Copper Tellurium Master Alloy | CuTe | Cu-50Te, Cu-82Te, Customized | |
| HMMA1585 | Copper Silicon Master Alloy | CuSi | Cu-10Si, Cu-15Si, Cu-20Si, Cu-30Si, Customized | |
| HMMA1586 | Copper Silver Master Alloy | CuAg | Cu-10Ag, Cu-25Ag, Cu-30Ag, Customized | |
| HMMA1587 | Copper Sulfur Master Alloy | CuS | Cu-S, Customized | |
| HMMA1588 | Copper Tin Master Alloy | CuSn | Cu-Sn, Customized | |
| HMMA1589 | Copper Titanium Master Alloy | CuTi | Cu-30Ti, Cu-50Ti, Customized | |
| HMMA1590 | Copper Titanium Aluminium Master Alloy | CuTiAl | Cu-Ti-Al, Customized | |
| HMMA1591 | Copper Vanadium Master Alloy | CuV | Cu-0.01V, Customized | |
| HMMA1592 | Copper Zinc Master Alloy | CuZn | Cu-Zn, Customized | |
| HMMA1593 | Copper Zirconium Master Alloy | CuZr | Cu-10Zr, Cu-33Zr, Cu-50Zr, Customized | |
| HMMA1950 | Copper Lanthanum Master Alloy | CuLa | Cu-10La, Cu-15La, Customized | |
| HMMA1951 | Copper Neodymium Master Alloy | CuNd | Cu-Nd, Customized | |
| HMMA1952 | Copper Gadolinium Master Alloy | CuGd | Cu-Gd, Customized | |
| HMMA1953 | Copper Erbium Master Alloy | CuEr | Cu-Er, Customized | |
| HMMA1954 | Copper Yttrium Master Alloy | CuY | Cu-Y, Customized | |
| HMMA1955 | Copper Lanthanum Cerium Master Alloy | CuLaCe | Cu-La-Ce, Customized |
Copper-Based Master Alloy Applications
Copper-based master alloys are commonly used in the manufacture of various copper alloys. By adding the appropriate amount of copper-based master alloy, the content of alloying elements in the alloy can be accurately adjusted to achieve the desired material properties.
- Adjusting the zinc content in copper alloys can affect the strength, corrosion resistance, and processability.
- Adjusting the tin content of copper alloys can improve their wear resistance and strength.
- Adjusting the lead content in copper alloys improves workability and wear resistance.
- Adjusting the aluminum or manganese content in copper alloys can improve the strength and corrosion resistance.
Copper-Based Master Alloy Packaging
The Copper-based Master Alloy products are carefully placed in wooden cases or cartons with additional support from soft materials to prevent any shifting during transportation. This packaging method guarantees the integrity of the products throughout the delivery process.
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