• CNC Milling

    CNC milling machining is a computer-controlled machining technology. It uses a cutting tool to remove the metal material from a solid workpiece.

    Here are some of the benefits that make CNC milling an excellent option for metal manufacturing processes.


    1. Measurability

    CNC milling is a versatile manufacturing option, offering both repeatability and speed, making it well-suited for producing metal prototypes or for mass production.

     

    2. Fast turnaround time

    Integrating CAD and CAM programs into CNC milling reduces the time from order placement to receiving precision-machined metal parts.

     

    3. Accuracy
    CNC milling can produce sheet metal parts with high dimensional accuracy. 

     

    4. Material selection
    With the right tools and cutting speeds, there are more than 50 engineering materials that can be CNC milled. No matter what kind of metal material.

     

    5. Versatility

    Aside from producing a wide range of shapes for metal products, CNC milling can also accurately machine various features such as pockets, threads, bevels, and grooves.

  • CNC Turning

    CNC turning is a computer-controlled machining technique in which a solid workpiece is rotated to allow a stationary cutting tool to remove material from the workpiece to form the final metal part shape.


    The vision of custom metal products manufactured to the consumer's specific requirements can be made a reality with the remarkable flexibility of CNC machines!

  • Wire Cutting

    Wire cutting processing remains consistent regardless of the metal material. This technigue allows for the machining of pre-heat-treated materials,effectively mitigating the deformation issues associated with post-machining heat treatments. Tungsten Delicates possesses advanced expertise in wire cutting technology.


    Employing this method in particular fabrication processes minimizes wear, maximizes material usage, and consequently offers clients substantial material and cost savings. This advantage is paramount when working with precious metals.

  • Laser Cutting

    CNC laser cutting, controlled by a computer, utilizes a concentrated light beam to cut sheet metal workpieces with precision and cost-effectiveness. It is widely favored due to its ability to provide high precision and cost-effectiveness.


    1. Material Versatility
    Laser cutting can be used to cut a wide variety of materials such as paper, wood, metal, rock, etc. but it is widely used to remove material from sheet metal fabrications such as aluminum, copper, and other materials.


    2. High precision
    The standard tolerance of most of the CNC laser cutting machines is between 0.1 to 0.2 mm depending on the size and requirement. However, the tolerance level can be adjusted according to customer requirements.


    3. Cutting and engraving at the same time
    Meet customer's metal product customization needs, and can even engrave logos for you!

  • Grinding

    The metal grinding process can be categorized as cold grinding and hot grinding.


    Cold grinding involves processing at temperatures lower than room temperature to meet tungsten and molybdenum products  machining accuracy and surface quality requirements.


    Hot grinding involves processing at temperatures higher than room temperature to facilitate shaping and sizing the workpiece, avoiding local deformation on the surface.


    Grinding is characterized by high cutting speed, large depth of cut, good surface quality, no burr, high machining accuracy, and low processing costs, making it suitable for processing complex and precision parts, as well as sandwich structures and castings with larger deformation.

  • Injection Molding

    Metal injection molding combines two distinct processes, powder metallurgy and plastic injection molding, offering engineers the flexibility to move beyond the traditional limitations of plastic injection molding in their quest for low-cost, shaped metal parts made from stainless steel, nickel, iron, copper, titanium, and other materials. This enables greater design freedom compared to many other metal manufacturing processes.


    The benefits of injection molding include:


    1. The ability to mold highly complex parts.


    2. Availability of a wide range of materials, enabling high material utilization across a variety of applications.


    3. High efficiency, facilitating the realization of large quantities and large-scale production.


    4. Production of high precision parts.