The most popular versions of the tool are 11.5, 11.1 and 11.0. Vector NTI Advance is categorized as Education Tools. Vector NTI 10.exe, Vector NTI 5.exe, Vector NTI 6.exe, Vector NTI 7.exe and Vector NTI 8.exe are the most common filenames for this program's installer. The latest setup package takes up 177.6 MB on disk.
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Define how you want to flip the material for double-sided projects from the Job Setup dialog. This influences the positioning of the vectors and models so that geometry on each side is created in the appropriate positions relative to the opposite side.
In order to create a toolpath that wraps around multiple times, one can create a long vector at a certain angle. Such a vector is an equivalent to the strip of fabric when it is unwrapped from the roll.
The software has a comprehensive set of drawing tools to let you easily create vectors from scratch or add to imported data. These include options for creating standard shapes (circle, elipse, rectangle, polygon and star) along with line, curve and arc drawing tools. There is also a powerful tool to create vector textures for panels and backgrounds. These tools can be controlled using typed input to create exact sized objects or can be used dynamically with the mouse to sketch your artwork. The tools also take advantage of the 'snapping' to let you use points on existing objects to 'snap' onto when you are drawing vectors.
Borders of different sizes and radii can also be added to bitmaps for aesthetic purposes. Bitmaps can also be made black and white. The software also has the ability to crop images to any given vector allowing you to remove parts of the image you are not interested in.
Image tracing also known as vectorization allows you to take an imported image such as a scanned drawing, graphic design or photo and to convert colors in that to vector outlines. These outlines can then be used as part of your design to create toolpaths or to generate 3D shapes using the modeling tools. The software will import many file formats including jpeg, bitmap, gif, png, tif, it will also extract images from a PDF file.
A very important set of tools are those used to identify duplicate vectors and identify and rejoin open vectors. These tools can save an great deal of time when working with poor quality data to get it ready to machine.
As well as importing vectors from other programs the software also offers the ability to export your data in either DXF, EPS or AI file formats. This feature is very important if you need to share data with a customer in order that they can use it to plan a layout or installation.
The dimensioning tools allows you to create a variety of different types of measurements on your drawing. These can be oriented in any direction or fixed horizontally or vertically. There are also options to add angular and arc dimensions. You can control the text height, font number of decimal places and position for each one. Dimensions can be snapped to vectors, guidelines and the corners or mid-points of each side of your work area.
Whether your design vectors have been created in the software or imported you have a large choice of editing options to prepare your part for toolpath creation or modeling. Vectors can be easily scaled, moved, mirrored, distorted, grouped, welded, trimmed, filleted, extended, offset, smoothed and joined together. As with the drawing tools you either have precise control over the editing values adjust the vectors very accurately or can use the mouse to dynamically make adjustments until your layout looks correct.
The Layers are a very efficient way to keep your 2D data organized, one of the main uses is to allow you to temporarily hide data you were not currently working with. Layers could also be used to group vectors you might be using to model related shapes in a 3D design to make it simpler to work on a small part at a time.
Rulers, Snap Grid and Guidelines help to make vector drawing and 3D part layout much simpler. These options can be switched on / off as required. When combined with Snapping options that automatically detect and snap the cursor to key regions on a design these tools make it easy to create very accurate part.
Repeating vector patterns can be quickly created using the 'create vector texture' tool. It's easy to modify the settings to create an infinite number of variations from regular wave patterns through to uneven natural looking grain lines.
These vectors can be machined using the profile and texture toolpaths to create decorative wavy texture panels along with wood-grain and sand-blast effects. These can also be projected onto a 3D surface to add even more variation.
This allows you to add more precision to your shape creation and editing process more easily by allowing typed values while creating geometry. This is supported for creation of circles, ellipses, rectangles, polygons, stars, polylines and when in editing nodes or transforming vectors.
Shapes can be easily scaled, moved, mirrored and grouped. You can also create a vector boundary around selected components which is useful for when you want a boundary vector of the composite model. VCarve also allows you to smooth a 3D object using the smooth tool.
The level clipping mode makes it easy to constrain the model you are creating to a chosen boundary. Use vectors to define your boundary and the contents of your level are dynamically clipped so that only what lies inside the vectors is kept. This makes it simpler to assemble different models and allows you to rearrange your components and see the results of clipping in place.
Using the profiling toolpath strategy, objects can be cut out quickly and efficiently. Simply select the vector shapes you wish to profile, select the tool from the tool database and the software will do the rest. The profiling automatically offsets for the tool radius and sorts nested shapes to ensure that inner shapes such as the center of a letter 'O' are cut before the outer shape (so parts are not released from the material before they are cut). Full control of cut direction is offered along with either automatic or manual control of tool entry point for each shape.
The pocket toolpath makes machining the material away from inside a vector shape efficient and easy to achieve. Just select all the vectors defining the shapes you want to cut and the program will sort the vectors to identify islands automatically and offset the boundaries for the selected tool radius.
Whether you are drilling a single hole or hundreds, just select the vectors representing the holes and the software will drill the center of each vector to the specified depth. The grouping feature makes it easy to associate all vectors for a particular toolpath strategy together so only one needs to be selected. The tool database includes a dedicated drill tool type so that the true tool geometry can be seen in the toolpath previews.
V-Carving uses a constant angled cutter that's moved at flowing variable depth to create a 3D carved effect on the job, similar to the way a craftsman would work by hand. The software automatically calculates a path defined by the combination of the angle of the tool specified and the width and shape of the vectors being machined.
The option to use vector start points lets you choose the positions the tool will enter the material. For some applications this can help reduce the load and as such potential marking of the finished part, created by tool vibration when plunging into a deep area.
There are two toolpaths which are typically used to machine the 3D parts of a job. The areas that these toolpaths cut is governed by selecting one of the three machining limit boundary options, model boundary, material boundary or selected vector(s). Model boundary will use the outer silhouette of the composite model (all the 3D components visible in the 3D View) at the time of calculation. This means there is no need to create a vector boundary around them for these operations. Material boundary will create a toolpath that completely fills the entire job area. Selected vector(s) will use any vectors you have selected in the 2D view as the boundary for the toolpath.
Now you can simulate the effects of complex roman ogee cutters, round over bits and any other custom tool shape you desire. Simply draw the tool profile using the vector drawing tools or import the profile from the manufacturer and you can add your custom tool to the list. In the tool database you can specify feed rates, spindle speeds, cutting depths etc. in the same way that you do for any of the standard tool types.
The nesting routine places vector shapes and/or components as close to each other as possible ensuring a sufficient gap to allow the parts to be cut out correctly. The nesting includes options to control part direction to reflect material grain or machine orientation. It intelligently determines what parts of your geometry should be nested together. It can also automatically nest objects on both sides of a job together to create two-sided nested geometry. 2ff7e9595c
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