Dean Tech MonoDia DT-111

 The (1,1,1) crystalline lattice orientation in diamond has several key features and properties, stemming from its unique atomic arrangement.




 

  1. Atomic Structure and Surface: The (1,1,1) surface of diamond is one of the most densely packed planes in its crystal structure. It is composed of a repeating pattern of triangular motifs, with each carbon atom tetrahedrally bonded to four other carbon atoms. This arrangement leads to a number of distinctive surface properties.
  2. Surface Energy: The (1,1,1) plane generally has a lower surface energy compared to other orientations like (1,0,0). This means that it is more thermodynamically stable and less reactive, which is why it's often preferred in certain technological applications.
  3. Electronic Properties: The electronic properties of the (1,1,1) surface can differ significantly from those of other crystal orientations. Due to its dense packing and surface termination, this orientation may exhibit different electronic band structures, influencing electron mobility and surface conductivity.
  4. Mechanical Properties: Diamond in the (1,1,1) orientation tends to exhibit superior mechanical properties, such as hardness and durability. The close packing of atoms provides high resistance to penetration and abrasion, making it ideal for cutting tools and wear-resistant surfaces.
  5. Chemical Stability: The chemical inertness of the (1,1,1) plane is higher than other planes, which makes it less prone to oxidation and other surface reactions. This is beneficial for applications requiring high purity and stability under extreme conditions.
  6. Applications in Technology: The (1,1,1) orientation is often preferred for the growth of high-quality diamond films and for the fabrication of diamond-based semiconductors and quantum computing components, where precise atomic arrangements are crucial.
  7. Growth and Synthesis: Synthesizing diamond with a specific orientation, such as (1,1,1), can be more challenging but provides control over the properties of the material. Techniques such as chemical vapor deposition (CVD) are commonly used to grow diamond films with preferred orientations.


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DT-111-05 & DT-111-06
are 2 common sizes (0.5 & 0.6mm) for wire dies applications
Wire drawing dies are indispensable in various industries, from electronics to construction, facilitating the production of extensive lengths of wire. For tasks that demand ultra-fine finishes on non-ferrous, ferrous, precious, and refractory metals, DeanTech Inc.'s MonoDIA synthetic single crystal diamond is the material of choice. This range of wire drawing die blanks eliminates the unpredictability often associated with wire drawing, ensuring a smooth, efficient process.

Key Features:

  • Unmatched quality and consistency in production.
  • Superior wear resistance for longer-lasting use.
  • Enhanced thermal stability and conductivity for improved performance.

Benefits:

  • Enjoy a reliable die lifespan with minimal hole wear distortion, thanks to the consistent (111) orientation.
  • Achieve a high-quality finish on drawn wires.
  • Benefit from a consistent tool life, reducing the need for frequent replacements.


Crafted for professionals, the MonoDIA series brings precision and durability to your wire drawing operations.