Mastercam Mill 2D - Swept 2D Operation || Chain Selection || Cutting || Part Cutting || 2D Program скачать в хорошем качестве

Mastercam Mill 2D - Swept 2D Operation || Chain Selection || Cutting || Part Cutting || 2D Program

Mastercam in this Video we show u about 2D Swept Milling Operation - #2D Swapt #Swapt - - - -- - - - - - - - - - - - - - -- - - - -- - - -- - - - - - - - - - - Be Connected & Updated for more Videos 📌For Join our Telegram Public Channel:- Mastercam Tutorial - Cipetian Educational Zone https://t.me/Mastercamtutorial 👇🏼👉🏼 Mastercam for Beginners Tutorial in Hindi - All Commands in Detail: https://www.youtube.com/playlist?list... 👇🏼👉🏼 Mastercam CNC Lathe Practice Exercise Tutorial in Hindi: https://www.youtube.com/playlist?list... 👇🏼👉🏼 Mastercam CNC Lathe Operations Tutorial in Details - With Tips and Tricks: https://www.youtube.com/playlist?list... 👉🏼👇🏼 Mastercam CNC Milling (VMC) Tutorial For 2D Tool-path & Modeling Tutorial in Hindi - Practice Exercises: https://www.youtube.com/playlist?list... 👇🏼👉🏼 Master Cam 3D Modeling Tutorial in Hindi - With Tips & Tricks: https://www.youtube.com/playlist?list... 👇🏼👉🏼 Mastercam CNC Milling 2D Operations Tutorial with all Cutting Parameter Details in Hindi - Tips & Tricks: https://www.youtube.com/playlist?list... - - - - - - - - - - - - - - - - - - - - - - - - - - -- - - - - #Swept 2D Toolpaths Swept 2D toolpaths are 2½-D toolpaths that are created by sweeping one boundary (the across contour) along a second contour (the along contour). A Swept 2D toolpath can have only one along boundary. The across and along boundaries are blended to generate a 2½-D toolpath. Boundaries for a swept 2D toolpath need to meet these conditions: • #The boundaries can not contain splines. • #The along boundary must lie parallel or perpendicular to the current tool plane, or to the XY plane (top Plane) if you do not define a tool plane. This only applies when the final toolpath contains arcs. The final toolpath contains arcs when either the along boundary contains arcs or when you choose to roll the toolpath around corners. Swept 2D toolpaths have an advantage over swept 3D toolpaths in that they output arcs and create shorter NCI files. However, swept 3D toolpaths give you much more flexibility. The first picture below shows the geometry that is required for a swept 2D toolpath. The magenta profile is the across contour. The blue arc is the along contour. The red point is the intersection. The second picture shows the toolpath that results from sweeping the across contour along the blue arc. #Swept 2D Parameters Use this tab to enter the toolpath parameters for a Swept 2D wireframe toolpath. This toolpath simulates a surface by sweeping one contour along another to create a 2½-D toolpath. • #First, enter the toolpath dimensions and other options. • #Then, select the cornering and compensation options for the across and along contours. Use the compensation options to orient the toolpath with respect to the geometry. Use the cornering options to tell Mastercam whether to insert arcs at toolpath corners. Parameters #Across cut distance Sets the distance between cuts in the across direction. Stepover is applied to the longest along boundary. This parameter determines surface smoothness. A smaller increment takes longer to process, but works well for more extreme surface curvatures. The more drastic the curvature on the part, the smaller the step size should be. On a fairly flat surface, a larger cutting distance may be used (for example, 0.150). #Stock to leave Enter the amount of material to leave on the part model when the operation is finished. #Rapid depth (abs) Sets the height from which the tool plunges at the rapid speed before it machines the part at the feed rate. The tool also retracts to this height when moving between toolpath segments. This parameter is an absolute value. #Tip compensation Sets amount of offset to the tool's center or tip for bull-nose and ball (spherical) tools. Used for touching the tool off the part. For multiaxis toolpaths, tip compensation outputs the tool tip offset as either the tip or the corner radius distance from the tip. #Sync option Lines up the across and along boundaries. Selecting Manual or Manual/density requires additional data input. #Infinite look ahead Prevents the toolpath from crossing itself to protect against gouging. #None Inserts no arc moves and guarantees sharp corners. #Sharp Inserts arc moves around corners of 135 degrees or less. #All Inserts arc moves around all corners to create smooth tool movement. #Right Compensates the across boundary to the right relative to the chaining direction. This parameter should be set so that the tool lies above the across boundary. #Left Compensates the across boundary to the left relative to the chaining direction. This parameter should be set so that the tool lies above the across boundary.