Gigawerk

Description: Contour cuts are made from sheets and plates and are characterized by a flexible process that allows the creation of custom parts at high processing speeds. This method offers designers high potential for the economical creation of complex welded assemblies, seals, or other machine elements.

Description: The sketcher is used to create 2D geometries as a basis for various modeling operations in 3D space. Besides the quick selection for basic shapes, you can create, modify, and delete your own paths with segments. Constraints are small mathematical formulas that are attached to objects upon selection to define the position and alignment precisely. The constraints can remain throughout the entire design process.

Description: Raw parts are workpieces that have not yet been fully processed or finished and still require additional machining steps. In milling, raw parts are usually made from a larger workpiece or material plate and then cut to the required size and shape. Raw parts in milling can have different shapes depending on the requirements of the final product. Typically, raw parts are used in the form of workpiece blocks or plates, which are then mounted and machined on the milling machine. The production of raw parts in milling requires careful planning and preparation to ensure that the final workpieces meet the desired specifications. This may include selecting the right material, sizing the raw part, and precisely determining the cutting depth and speed during milling. Raw parts in milling are often used for the production of components that require high precision, such as in the aerospace, automotive, and electronics industries. By using raw parts, efficient manufacturing can be ensured, as most of the material has already been removed, and only the final details need to be machined. Overall, raw parts in milling are an important part of the manufacturing process and enable the production of complex workpieces with high precision and efficiency.

Description: Pocket milling is a subfield of milling that focuses on creating pockets or recesses in workpieces. In this process, the workpiece is mounted on a machine tool, and a rotating mill is lowered into the workpiece to remove material from the surface and create a pocket or recess. Pocket milling is often used in the manufacturing of components where specific areas of the workpiece need to be removed to create space for other components or to achieve specific shapes. An example of this is the production of housings for electronic devices, where pockets need to be milled for batteries, circuit boards, and other components. To ensure precise and repeatable production of pockets or recesses, various parameters must be considered. These include choosing the appropriate mill, feed rate, spindle speed, and cutting force. Careful planning and programming of the milling process are also required to ensure that the workpiece is machined exactly to the specifications. Different types of mills can be used for pocket milling. These include slot mills, end mills, ball nose cutters, and many others. Each mill has

Description: Drilling on a milling machine is a cutting manufacturing process that offers many advantages but also some challenges. However, with the right choice of tools, cutting conditions, and machine settings, precise and efficient drillings can be produced on a milling machine.