Mastercam software Review

Introduction:

Mastercam software is a CAD/CAM program created with innovation, simplified precision, and industrial efficiency in mind. The software provides manufacturing solutions for milling, turning, wire EDM, router programming, Swiss machining, plasma cutting, lasers, and 3D design and drafting, empowering designers and NC programmers across a variety of industries.

From secondary school to university education, from one-person job shops to global manufacturing giants, more people use Mastercam than any other CAM program. The strongest CAD/CAM community in the world is made up of Mastercam users, who promote global advances in product development, machining innovation, and manufacturing.

Mastercam software tutorial:

With the aid of this lesson, you may master the fundamentals of Mastercam and explore the user interface. The following are included in this tutorial:

• A general examination of the Mastercam user interface, covering the ribbon interface, Quick Access Toolbar (QAT), Selection Bar, Quick Masks, Status Bar, and Managers.
• An introduction to the File menu in Mastercam sometimes referred to as the Backstage, which allows you to manage and print files, change system configuration, personalize the user interface
• An introduction to levels and planes and a tour of the graphics window in Mastercam.

In this blog, we just explain the Mastercam interface

Analyzing Mastercam interface

Clicking twice on the desktop icon for Mastercam.

Take a while to explore Mastercam Interface

The following image displays the components of the Mastercam Interface. Each section briefly describes the component and its function.

1: Quick Access Toolbar

A group of frequently used features that we can customize and are constantly accessible in the UI. It’s possible to place the QAT above or below the ribbon.

2: Tab                  

Collection of associated controls. We can use a simple to comprehensive workflow to arrange the tabs.

3: Tab Group

A section of the tab that contains several linked controls

4: Tab for context

A tab that appears in Mastercam after you make a particular choice. A contextual tab displays controls and instructions appropriate to your current activity.

5: Tooltip

A brief window appears with explanatory text when you hold over a command or control.

6: Selection Bar

A toolbar that combines common selection tools and Auto Cursor controls for selecting objects in the graphics window. Depending on the function you are using, either standard selection or solid selection is one of two selection modes. When you move the cursor over geometry in the graphics window, you can use Auto Cursor controls to detect and snap to locations. Every time Mastercam asks you to choose a position in the graphics window, Auto Cursor turns on.

7: Quick Masks

A set of controls that enable you to choose only entities of a particular type or all entities of a particular type. The majority of Quick Mask controls are split in two. We can click the control’s left or right side to switch between selection modes. A Quick Mask control’s highlight indicates that the selection mask is active when we chose it. We can switch Multiple Quick Masks at once.

8: Status Bar

Across the workspace’s bottom is a bar that displays the coordinate location of the

Quick access to the C-plane, T-plane, WCS, and Z Depth of Geometry.

In the graphics pane, toolpaths. The wireframe, shading, and translucency settings on the right side of the Status Bar alter the part’s appearance.

9: Dynamic Gnomon

You can interactively manipulate geometry and planes with the on-screen gnomon. The gnomon has three axes that are joining at the origin and selection points that allow you to select various transformations.

10: Managers

Controls for toolpaths, solids, planes, levels, recent functions, and art are among the managers. The Managers may conceal, dock, stack, or float.

Planes Manager

A plane is any two-dimensional cut of a three-dimensional coordinate system. The XY plane in a 3D coordinate system and any face of your part, regardless of angle, are examples of planes.

Creating a custom plane

You build a custom plane in this exercise that set to line up with the part’s angled face and you add it to the list of system planes.

1: Create a new plane drop-down menu: choose from the solid face.

2: Choose the part’s angled face, as shown below:

3: To switch between the available perspectives in the Select plane dialogue box, click the arrow buttons. It makes sense to have +Z pointing away from the part in the majority of cases.

4: Go to the view described in the figure that follows.

5: In the Select plane dialogue box, click OK.

The function panel for New Plane appears.

6: As the Name of the new plane, type FACE OF PART.

7: Within the Set As a group, choose C-plane.

8: To select a different origin, click Reselect.

9: Make your selection at the face’s lower-right corner.

10: To close the New Plane function screen, click OK.

In the plane’s grid, your brand-new aircraft, FACE OF PART, is visible.

Drawing Geometry using a Custom Plane

You design geometry using the new C-plane in this exercise. You can see that the new plane determines geometry’s orientation. The new plane adjusts the View.

1. From the Wireframe menu, pick Circle Center Point.

2: From the Auto Cursor drop-down menu on the Selection Bar, choose Origin.

3: Enter a Radius of 80.0 in the Circle Center Point function window, and then click OK.

Mastercam produces a circle that is square to the part’s face 

It focuses on the custom plane’s origin instead of the system’s origin.

4: Turn on each axe by selecting View > Show Axes.

5: To show the XYZ axes, press [F9] if necessary. We can see Axes in various colors. The axes appear as dotted lines because C-plane and T-plane are the same. Try different combinations of individual axes.

6: Click in the G column of the FACE OF PART plane in the Planes Manager to set the G view.

Right now, you are staring directly down into the part’s face. The newly made bespoke plane lined up with the Gview.

7: Save your work

System Requirements for Mastercam Software:

To use this software on your computer, you must meet these criteria.

	Minimum	Recommended
Os	64-bit Professional versions of Windows 10 or 11.	Windows 10 64-bit Professional (version 20H2 or later)
Processor	64-bit Intel® or AMD CPU, 2.4 GHz or higher	3.2GHz or faster, Cabby Lake or later, Intel i7 or Xeon® E3.
Memory	8 Gb	32 Gb
Video	Support for OpenGL 3.2 and OpenCL 1.2 with 1 GB of memory. No in-built graphics.	With 4 GB (or more) of dedicated memory, an NVIDIA Quadro® or AMD Fire Pro TM / Radeon Pro card require.
Monitor	1920*1080	1920*1080-dual monitors
Storage	a USB 2.0 reader and a solid-state drive (SSD) with at least 20 GB of empty space (for installation media)	at least 20GB of free space on an NV Me drive
3d Mouse		3D mouse by 3Dconnexion

Mastercam Software Video Tutorial

I briefly discussed how we can utilize Mastercam software to construct 3D models in the upper section of the post. Here is the Mastercam tutorial video playlist. Once you’ve overcome it, you’ll go on to the next level of design.

Free Download Mastercam Software:

Using this standalone installer, the Windows operating system may be installed entirely offline. Both Windows 64-bit and 32-bit would operate with this. It is an entirely cost-free edition. Simply click the below link to get it and begin your freelance career.

Conclusion

Educational institutions pick Mastercam to give their students the working knowledge and practical skills they need to succeed in manufacturing jobs using the #1 CAM software in the world. Students who enroll in these programs increase their chances of finding employment because of the industry’s widespread use of Mastercam.