Magnesium Oxide Crucible

Magnesium Oxide Crucible

Magnesium Oxide Crucible

  • Custom sizes and standard sizes in stock
  • Quick Lead Time
  • Competitive Price

Magnesium Oxide Crucible is made from high-purity MgO and designed for use in extreme temperature environments, typically up to 2000°C. It offers excellent thermal stability, chemical resistance, and low reactivity with molten metals and oxides. This makes it suitable for applications such as metal smelting, crystal growth, and ceramic sintering. As a leading supplier and manufacturer of premium graphite products, Shanghai Yuepeng can supply high-quality magnesium oxide crucibles with various specifications and competitive prices, offering customized solutions to meet specific requirements.

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Magnesium Oxide Crucible Data Sheet

Color:White/Ivory
Chemical Formula:MgO
Refractoriness:Super high grade (Refractoriness > 2000°)
Density:3.20 g/cm3
Type:Dielectric ceramic
Dimension:customized
Shape:Cylinder, Conical Cylinder, Rectangular, T-shape, or customized.
Working temperature:2000°C
Compressive strength:1000 MPa
Flexural strength:300 MPa
Surface:Glass/Polished
Processing services:Bending, welding, punching, decoiling, cutting, molding

Magnesium Oxide Crucible Description

Magnesium oxide crucible is a refractory container engineered for high-temperature processes involving aggressive materials. With the high melting point, good thermal conductivity, and strong resistance to basic slags and metal oxides, it performs well in environments like vacuum furnaces, rare-earth element processing, and powder metallurgy.

  • Magnesium Oxide Crucible

Magnesium Oxide Crucible Chemical Compositions

CompositionContent (%)
SiO₂0.1
Al₂O₃0.1
MgO98
CaO0.1
CrO0.1
SiC0.1

Magnesium Oxide Crucible Features

  • High Melting Point: Can withstand temperatures above 2000°C, suitable for extreme heat environments.
  • Strong Chemical Stability: Resistant to basic slags, alkalis, and metal oxides, ensuring material purity.
  • Excellent Thermal Conductivity: Enables uniform heating and efficient thermal transfer.
  • Low Reactivity: Minimizes contamination of sensitive samples during high-temperature processes.
  • Good Thermal Shock Resistance: Maintains structural integrity under rapid temperature changes.

Magnesium Oxide Crucible Applications

  • High-Temperature Metal Melting: Magnesium oxide crucibles are used for melting metals such as aluminum, copper, and precious metals, providing excellent thermal stability and resistance to thermal shock.
  • Laboratory Chemical Reactions: They are applied in laboratories for high-temperature chemical reactions, offering chemical inertness and preventing contamination of reactive substances.
  • Glass and Ceramic Processing: MgO crucibles are used in the melting and casting of glass and ceramic materials, ensuring uniform heat distribution and maintaining material purity.
  • Analytical and Research Instruments: These crucibles are used in scientific research for sample preparation, ash content analysis, and high-temperature thermal treatments.
  • Industrial Thermal Processes: Magnesium oxide crucibles serve in various industrial applications requiring high-temperature durability, corrosion resistance, and long-term stability in furnaces and kilns.
  • Metal Melting and Casting
    Metal Melting and Casting
  • High-Temperature Laboratories
    High-Temperature Laboratories
  • Glass Forming
    Glass Forming
  • Material research
    Material research
  • Industrial Machinery
    Industrial Machinery

Magnesium Oxide Material Properties

PropertyValueUnit
Specific Gravity (S.G)3.58g/cm³
Porosity10%
Vickers Hardness (HV1)650HV
Flexural Strength105MPa
Compressive Strength275MPa
Young’s Modulus2.1 x 10¹¹Pa (N/m²)
Fracture Toughness1.8MPa·m^1/2

PropertyValueUnit
Coefficient of Thermal Expansion40℃ to 400℃10.0 × 10⁻⁶/°C
40℃ to 800℃10.5 × 10⁻⁶/°C
Thermal Conductivity42W/m·K
Specific Heat0.92J/g·°C
Dielectric Strength (Thermal Shock Resistance)17kV/mm

PropertyValueUnit
Volume ResistivityAt 20°C> 1014Ω·cm
At 500°C> 108Ω·cm
Permittivity (Dielectric Constant)@ 1 MHz9.8C²/(N·m²) or (Dimensionless)
Dielectric Loss Tangent@ 1 MHz1 × 10⁻⁴

Magnesium Oxide Ceramic Machining

Magnesium Oxide Ceramic Machining

Magnesium oxide can be machined in green or bisque form before sintering, and to a limited extent in its fully sintered state. In its pre-sintered state, the material is relatively soft and easier to shape, but like many ceramics, it undergoes significant shrinkage—up to 20%—during sintering, which can affect final dimensions. Fully sintered magnesium oxide is very hard and brittle, requiring diamond tools and precision equipment for any post-sintering machining.

Machining Methods and Considerations

  • Green or Bisque Machining: Easier to cut and form, suitable for complex shapes before firing.
  • Sintering Shrinkage: Expect about 15–20% dimensional reduction during sintering, which impacts tolerance control.
  • Post-Sintering Machining: Requires diamond grinding tools due to the material’s hardness and brittleness.
  • Fragility: Fully sintered MgO is prone to chipping and fracture if not handled with care during machining.
  • Tooling and Time: Machining dense MgO ceramics is time-consuming and requires specialized equipment.

Magnesium Oxide Ceramic Packaging

Magnesium Oxide Ceramic products are typically packaged in vacuum-sealed bags to prevent moisture or contamination and wrapped with foam to cushion vibrations and impacts during transport, ensuring the quality of the products in their original condition.

ceramic packing

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To customize your magnesium oxide crucible, please provide the following details:

  1. Dimensions: Top Diameter x Bottom Diameter x Height x Wall Thickness
  2. Material Grade: Specify the material grades.
  3. Purity of the material
  4. Shapes: Cylinder, Conical Cylinder, Rectangular, T-shape, or customized.
  5. Tolerances: Specify the tolerances you can accept.
  6. Surface Finish: polished, rough, etc.
  7. Quantity of the crucibles you need
  8. Alternatively, you can provide a drawing with your specifications.

Once we have these details, we can provide you with a quote within 24 hours.

We carry a wide variety of magnesium oxide products in stock, and for these, there is generally no minimum order requirement. However, for custom orders, we typically set a minimum order value of $200. The lead time for stock items is usually 1-2 weeks, while custom orders usually take 3-4 weeks, depending on the specifics of the order.

Yes.magnesium oxide custom parts are highly resistant to most acids, alkalis, and molten materials, allowing these parts to perform well in chemically aggressive environments.

Absolutely. magnesium oxide custom parts can typically operate at temperatures up to 2000 °C without losing strength or structural integrity, making them ideal for high-heat applications.

Shanghai Yuepeng Tech, established in 2022 in Shanghai, China, is a specialized supplier and manufacturer of magnesium oxide products. With extensive expertise in supply and export, we offer competitive pricing and customized solutions tailored to specific requirements, ensuring outstanding quality and customer satisfaction. As a professional provider of refractory metals, specialty alloys, spherical powders, and various advanced materials, we serve the research, development, and large-scale industrial production needs of the scientific and industrial sectors.

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