Triangulatica • Powerful GPU based slicer a for all 3D printing technologies
info@triangulatica.com

Triangulatica

Triangulatica is a powerful GPU based slicer a for all 3D printing technologies (existing and future): SLA Laser, SLS, SLM, FDM/FFF, DMD/LMD/DMT, MJM, SLA DLP/LCD, Bio-printing etc. Of cource Triangulatica – solution for creating new 3D printing systems based on existing or future additive manufacturing methods and technologies.

Key features of Triangulatica

  • Vector & raster slicing in one application;
  • Unique method of preparation logic for 3D printing build tables;
  • Great amount and flexibility of export formats;
  • GPU based math;
  • Automatic & manual supports generation with various types of supporting structures and rafts;
  • Various types of parametric slice filling;
  • Interface customization;
  • Online database of printers & materials profiles;
  • Excellent flexibility in customizing slicing strategies;
  • Convenient licensing and affordable prices.

Try for FREE the full version of Triangulatiсa. You can return here later, purchase and activate the subscription. If you are ready to buy Triangulatiсa now, you can do it here. If you have any questions, please contact us.

Nowadays many additive technology researches, such as 3D printers, start all over the world. Each of them must include user software, which realizes complex algorithms of slicing and printing strategies calculation, printing process control software, and service software.

Development of this type of soft takes around 1.5-2 years and may reach up to 50% of entire product cost.

Our product is designed to decrease development time and save resources of companies, which make new 3D printing systems based on various technologies.

Denis Vlasov
CEO TRIANGULATICA

Triangulatica features

Triangulatica

Supported slicing technologies:

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Raster slicing on GPU (Graphics processing unit)
Vector slicing on GPU (Graphics processing unit)

Technical requirements:

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OpenGL 4.3
.NET Core 8
Windows 7 and higher (Windows 8.1, Windows 10, Windows 11). Platform x64
MacOS, Linux

Compatibility with 3D technologies:

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SLM slicing (Selective Laser Melting)
SLS slicing (Selective Laser Sintering)
SLA slicing (Stereolithography) for laser SLA
SLA slicing (Stereolithography) for DLP or LCD
MJM slicing (uv-cured resin printing with piezzo printheads)
JET slicing (sand form printing, gipsum printing, wax printing etc.)
Bio printing slicing
FDM/FFF slicing (Fused Filament Fabrication) for layer-by-layer printing
FDM/FFF slicing (Fused Filament Fabrication) for three and more axis manipulators
FDM/FFF slicing (Fused Filament Fabrication) for bed-ribbon technology
DMD/LMD slicing (Direct Metal Deposition) for layer-by-layer printing
DMD/LMD slicing (Direct Metal Deposition) for three and more axis manipulators

Supporting structures building:

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Automatic supporting structures generation using GPU
Automatic perimetrical supporting structures generation using GPU
Automatic generation of supporting structures for model’s extremums using GPU
Manual support building and editing
Raft supporting structures generation
Supporting strucutre type: Standart
Supporting strucutre type: Linear
Supporting strucutre type: Square
Raft collection
Scalable rafts feature
Control of rafts thikness
Piercing pillars feature
Density pillars control feature
Parametrical supports
Connectors between supports generation mode
Supports arrangement mode: Orthogonal
Supports arrangement mode: Triangular
Supports arrangement mode: Randomisedin progress
Supports arrangement mode: Radialin progress
Supports arrangement mode: Smart (simple logic)in progress
Supports arrangement mode: Smart (surface and form analysis logic)in progress
Supports preset manager

3D models optimization services:

Mass convertation to TRISTL (STL optimazation more >>>)
Model curing based on GPU
Boolean operations with model based on GPUin progress

Exporting formats:

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Raster format: PNG
Raster format: TIFF
Raster format: BMP
Vector format: G-code 
Vector format: SLC
Vector format: CLI (BIN)
Vector format: CLI (ASCII)
Vector format: AFF
Vector format: SVG
Vector format: CSV (;)
Vector format: CSV (,)
Raw format: TRIBIN

Importing formats:

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3D model format: STL (Triangulated mesh)
3D model format: IFC (Industry Foundation Classes)
3D model format: AMF (Additive manufacturing file format)
3D model format: 3MF (3D Manufacturing Format)
3D model format: 3DS (Autodesk)
3D model format: BLEND/BLENDER (3D software Blender forrmat)
3D model format: FBX (Autodesk)
3D model format: OBJ (Wavefront 3D object file)
3D model format: PLY (Polygon File Format)
3D model format: X3D (Extensible 3D Graphics)
3D model format: TRISTL (Trianlulatica optimized STL)

Calibration functionality:

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Applying light level stability map calibration on-the-fly during raster slicingin progress
Applying geometric (distortion compensation etc.) correction table on-the-fly during vector slicing
Compatibility with TRICORR format of correction table files

Slicing strategy functionality:

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Pass settings and events in slicing strategies
Multi color raster slicing (Using this slicing method additive manufacturing developers may use layer multicolor information to realise a different 3D printing strategies: sequential, parallel, multi material and overlap 3D printing more >>>)
Multipass raster slicings (This feature allows to apply different slicing strategies to objects on worktable)
Multipass vector slicings (This feature allows to apply different slicing strategies and fillings to objects on worktable)
Multi material raster slicing (The simple way for slicing models in different printing strategies in one worktable using Triangulatica slicer more >>>)
Multi material vector slicing (The simple way for slicing models in different printing strategies in one worktable using Triangulatica slicer more >>>)
Walls settings (order, offset)
Addition walls settings (quantity, offset, hatch distance)
Filling pattern (style, parameters, wall overlapping)
Walls, additional walls, fill order control
Vector fill patterns rotation control
Raster slicing antialiasing settings
Raster filling patterns
Layer color slicing settings
Speed and power settings for each layer element
Laser and galvo synchronization timings settings
Laseraway microstep settings and laser beam overlapping settings

Supporting materials:

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Laser metall powder
UV curable resin
Thermoplastic filament
Heat-meltable polymer powder
Thermoplastic polymer granules
Heat-melt wax or gel
Extended material proprieties
Online material database

Work table types:

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Square work table with orthogonal axis
Cylindrical work table with orthogonal axis
Cylindrical work table with polar axisin progress

Editing options:

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Translate
Rotate
Scale
Place 
Flipping
Arrangein progress
Arrays

Viewing options:

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Reflective view
Wireframe 
Transparency 
3-axis clipping 
Down facing view
Masses viewin progress

Layer 2D fill patterns for raster slicing:

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Raster fill pattern: Solid 
Raster fill pattern: Grid
Raster fill pattern: Hexagone
Raster fill pattern: Grid light
Raster fill pattern: Grid tiny
Raster fill pattern: Hexagone light
Raster fill pattern: Hexagone tiny

Layer 2D fill patterns for vector slicing:

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Vector parametric fill pattern: Unidirectional lines
Vector parametric fill pattern: Bidirectional lines
Vector parametric fill pattern: Zigzag lines
Vector parametric fill pattern: Unidirectional grid
Vector parametric fill pattern: Bidirectional grid
Vector parametric fill pattern: Unidirectional triangles
Vector parametric fill pattern: Bidirectional triangles
Vector parametric fill pattern: Boxes fom center
Vector parametric fill pattern: Boxes to center
Vector parametric fill pattern: Triangles fom center
Vector parametric fill pattern: Triangles to center
Vector parametric fill pattern: Hexagons fom center
Vector parametric fill pattern: Hexagons to center
Vector parametric fill pattern: Chess board with unidirectional lines
Vector parametric fill pattern: Chess board with bidirectional lines
Vector parametric fill pattern: Chess board with zigzag lines
Vector parametric fill pattern: Tracks with unidirectional lines
Vector parametric fill pattern: Tracks with bidirectional lines
Vector parametric fill pattern: Tracks with zigzag lines
Vector parametric fill pattern: Hilbert’s curves
Vector parametric fill pattern: Grainin progress
Vector parametric fill pattern: Peano’s curvsin progress

Layer 3D fill patterns for vector slicing:

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Three threads lattice (3 wire)
Four threads lattice (4 wire)
Four threads irregular lattice (3 wire)
Kelvin cell
Schwarz P (Primitive) minimal surface
Gyroid minimal surface
Schwarz D (Diamond) minimal surface

Useful functionality:

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Online materials database
Online 3D printers database
Possibility to setup new materials
Possibility to setup new 3D printers
Possibility to slice models with different materials (strategies) in on work table
TriBin Viewer included
Calculations on GPU

Interface features:

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Multilingual interface
The ability to hide a vector or raster slicer from the interface
Compact interface mode without large icones
Office like ribbon interface
4K display support
Dedicated window for each scene (Possibility to work simultaneously with many scenes in on application)
Drag & Drop
Tips & Tricks
Quotes for Triangulatica Education, Triangulatica Community, Triangulatica Premium and Triangulatica OEM

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