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Diamond Wire Dies Precision Drawing

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December 23, 2025
Category Connection: CVD Lab Grown Diamonds
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Tags:
#Single Crystal Diamond Wafer #CVD Diamond Substrates #CVD Lab Created Diamonds
Brief: Explore what sets this solution apart in an easy-to-follow presentation. This video demonstrates the precision engineering of (111)-CVD MCD Oriented Diamond Wire Drawing Dies, showcasing how their dual-technology approach revolutionizes wire manufacturing for applications from medical devices to semiconductors.
Related Product Features:
  • Features (111) crystal orientation along the <110> direction, tripling shear resistance for enhanced durability.
  • Utilizes both CVD (Chemical Vapor Deposition) and MCD (High Pressure High Temperature) processes for versatile wire drawing.
  • Monocrystalline structure eliminates grain-boundary failures, ensuring superior performance and longevity.
  • Maintains minimal aperture deformation even at extreme temperatures up to 1200°C.
  • CVD dies offer ultimate precision and thermal mastery for demanding applications.
  • MCD dies provide cost efficiency and are ideal for complex wire profiles.
  • Suitable for wire diameters ranging from φ0.003mm to φ5.0mm, covering a broad spectrum of industrial needs.
  • Widely used in stainless steel, medical, jewelry, semiconductor, and mass production wire manufacturing.
FAQs:
  • What is the key difference between the CVD and MCD diamond wire drawing dies?
    CVD dies are produced via Chemical Vapor Deposition, offering ultimate precision and thermal mastery for wires up to φ5.0mm. MCD dies use High Pressure High Temperature synthesis, providing cost efficiency and handling complex profiles for wires up to φ2.0mm.
  • Why is the (111) crystal orientation important for these dies?
    The (111) orientation, especially along the <110> direction, significantly increases shear resistance, making the dies more durable and reliable under high-stress wire drawing conditions.
  • What types of wire can be manufactured using these diamond dies?
    These dies are designed for a wide range of applications, including stainless steel wires, medical wires, luxury jewelry wires, semiconductor wires, and industrial mass production wires.
  • How do these dies perform under high-temperature conditions?
    The monocrystalline structure and specific orientation ensure minimal aperture deformation, maintaining precision and stability even at temperatures as high as 1200°C.
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