Version | Change log |
VariCad 2025 1.04 Dec 11, 2024 |
This new version contains an improvement in 3D modeling kernel, changes in creation of helical surfaces, support of real 3D threads, updates in smart dimensioning and in creation of 2D from 3D. Solids created as helices (by rotation and simultaneous extrusion) are defined by a contour in a sketching plane. The new version has a more intuitive approach to helix definition, to sketching of contours creating a helix. Similarly, as in case of extrusion, you can change helix height and/or number of coils also by cursor movement. Using features creating threaded cylinders, threaded holes or cutting threads on existing cylindrical surfaces, you can select a new option – to create a real 3D thread. The thread profile complies exactly to ISO metric threads, or to ANSI threads in case of working in inches. The threaded surface is created schematically by default. You can change the existing schematic thread to real 3D thread and vice versa, or to create a 3D thread immediately. Real 3D threads are suitable for 3D printing of mechanical parts. Another improvement is in the creation of 2D from 3D views. If you have some 3D objects displayed in original locations and some are copied into an exploded view, 2D is now created completely in one step, including both standard and exploded view. Using 2D smart dimensioning, cylindrical surfaces are now recognized always exactly. |
VariCad 2025 1.03 Nov 26, 2024 |
This new version contains an improvement in 3D modeling kernel, changes in creation of helical surfaces, support of real 3D threads, updates in smart dimensioning and in creation of 2D from 3D. Solids created as helices (by rotation and simultaneous extrusion) are defined by a contour in a sketching plane. The new version has a more intuitive approach to helix definition, to sketching of contours creating a helix. Similarly, as in case of extrusion, you can change helix height and/or number of coils also by cursor movement. Using features creating threaded cylinders, threaded holes or cutting threads on existing cylindrical surfaces, you can select a new option – to create a real 3D thread. The thread profile complies exactly to ISO metric threads, or to ANSI threads in case of working in inches. The threaded surface is created schematically by default. You can change the existing schematic thread to real 3D thread and vice versa, or to create a 3D thread immediately. Real 3D threads are suitable for 3D printing of mechanical parts. Another improvement is in the creation of 2D from 3D views. If you have some 3D objects displayed in original locations and some are copied into an exploded view, 2D is now created completely in one step, including both standard and exploded view. Using 2D smart dimensioning, cylindrical surfaces are now recognized always exactly. |
VariCad 2025 1.01 Oct 6, 2024 |
This new version contains an improvement in 3D modeling kernel, changes in creation of helical surfaces, support of real 3D threads, updates in smart dimensioning and in creation of 2D from 3D. Solids created as helices (by rotation and simultaneous extrusion) are defined by a contour in a sketching plane. The new version has a more intuitive approach to helix definition, to sketching of contours creating a helix. Similarly, as in case of extrusion, you can change helix height and/or number of coils also by cursor movement. Using features creating threaded cylinders, threaded holes or cutting threads on existing cylindrical surfaces, you can select a new option – to create a real 3D thread. The thread profile complies exactly to ISO metric threads, or to ANSI threads in case of working in inches. The threaded surface is created schematically by default. You can change the existing schematic thread to real 3D thread and vice versa, or to create a 3D thread immediately. Real 3D threads are suitable for 3D printing of mechanical parts. Another improvement is in the creation of 2D from 3D views. If you have some 3D objects displayed in original locations and some are copied into an exploded view, 2D is now created completely in one step, including both standard and exploded view. Using 2D smart dimensioning, cylindrical surfaces are now recognized always exactly. |
VariCad 2025 1.00 Oct 2, 2024 |
This new version contains an improvement in 3D modeling kernel, changes in creation of helical surfaces, support of real 3D threads, updates in smart dimensioning and in creation of 2D from 3D. Solids created as helices (by rotation and simultaneous extrusion) are defined by a contour in a sketching plane. The new version has a more intuitive approach to helix definition, to sketching of contours creating a helix. Similarly, as in case of extrusion, you can change helix height and/or number of coils also by cursor movement. Using features creating threaded cylinders, threaded holes or cutting threads on existing cylindrical surfaces, you can select a new option – to create a real 3D thread. The thread profile complies exactly to ISO metric threads, or to ANSI threads in case of working in inches. The threaded surface is created schematically by default. You can change the existing schematic thread to real 3D thread and vice versa, or to create a 3D thread immediately. Real 3D threads are suitable for 3D printing of mechanical parts. Another improvement is in the creation of 2D from 3D views. If you have some 3D objects displayed in original locations and some are copied into an exploded view, 2D is now created completely in one step, including both standard and exploded view. Using 2D smart dimensioning, cylindrical surfaces are now recognized always exactly. |
VariCad 2024 2.03 Sep 12, 2024 |
This new version contains multiple new options of 3D data output, and some optimization within a VariCAD core. The new options of output contain 3D PDF, Collada, ACIS data and PRC data. 3D PDF format allows you to view exported 3D models on multiple platforms, including Android. You can zoom, pan and rotate the view and perform measurement of 3D dimensions. Collada (Collaborative Design Activity) is a format mainly used in computer graphics. It is managed by Khronos Group and is adopted by ISO. ACIS data can be stored in format *.SAT (text) or *.SAB (binary). Format data up to version 700 are compatible with any software using ACIS. Higher versions – since 20800 are modified by Autodesk into a different representation. VariCAD output is compatible with Autodesk versions, so we recommend using versions up to 700 if you want to export data into different software than Autodesk products. 3D PRC (Product Representation Compact) is used for embedding of 3D data into PDF or for store, loading and displaying of 3D. VariCAD allows vast modifications of any supported output formats. These settings are available from the “cfg” command, or directly within a file-dialog, if you select a command “Save As”. |
VariCad 2024 2.01 Jun 12, 2024 | |
VariCad 2024 1.05 Feb 22, 2024 | |
VariCad 2024 1.04 Feb 5, 2024 | |
VariCad 2024 1.03 Jan 23, 2024 | |
VariCad 2024 1.02 Jan 8, 2024 |