Shapr3D
Shapr3D is a professional computer-aided design software that combines a mobile-first touch interface with a desktop-grade geometric modeling engine to help you create precise 3D models and technical drawings.
SimFlow
SimFlow is a comprehensive computational fluid dynamics software that provides an OpenFOAM-based GUI for simulating complex fluid flows, heat transfer, and multiphase interactions across engineering disciplines.
Quick Comparison
| Feature | Shapr3D | SimFlow |
|---|---|---|
| Website | shapr3d.com | sim-flow.com |
| Pricing Model | Freemium | Freemium |
| Starting Price | Free | Free |
| FREE Trial | ✓ 14 days free trial | ✘ No free trial |
| Free Plan | ✓ Has free plan | ✓ Has free plan |
| Product Demo | ✓ Request demo here | ✓ Request demo here |
| Deployment | ||
| Integrations | ||
| Target Users | ||
| Target Industries | ||
| Customer Count | 0 | 0 |
| Founded Year | 2015 | 2013 |
| Headquarters | Budapest, Hungary | Warsaw, Poland |
Overview
Shapr3D
Shapr3D is a professional CAD tool designed to bridge the gap between conceptual sketching and high-fidelity manufacturing. You can start a design on your iPad using an Apple Pencil and seamlessly switch to your Mac or Windows PC to finish the job. It uses the same Siemens Parasolid engine found in high-end industrial software, ensuring your models are mathematically precise and ready for production, 3D printing, or CNC machining.
You can create complex geometries using intuitive gestures and commands without the steep learning curve typical of legacy CAD systems. Whether you are an industrial designer prototyping a new product or a mechanical engineer creating technical parts, the software provides a fluid workspace that stays out of your way. It eliminates the need to be tethered to a desk, allowing you to iterate on designs wherever inspiration strikes.
SimFlow
SimFlow is a powerful computational fluid dynamics (CFD) platform that brings the capabilities of OpenFOAM to a user-friendly graphical interface. You can handle complex engineering challenges including compressible and incompressible flows, heat transfer, and chemical reactions without writing code. It allows you to import geometry directly from CAD software, create high-quality meshes, and monitor simulations in real-time to ensure accuracy and efficiency.
Whether you are designing automotive components or optimizing HVAC systems, the platform provides the tools to visualize flow patterns and pressure distributions effectively. You can run simulations on your local machine or scale up to high-performance computing clusters for massive datasets. It is designed for engineering professionals and researchers who need the precision of open-source solvers combined with the speed of a modern, intuitive workflow.
Overview
Shapr3D Features
- Multidevice Sync Switch between your iPad, Mac, and Windows PC instantly while your projects stay perfectly synced across all platforms.
- Parasolid Modeling Engine Create industrial-grade models with the same mathematical precision used by the world's leading engineering firms.
- 2D Drawings Generate professional technical drawings and documentation from your 3D models to streamline your manufacturing process.
- Direct Modeling Manipulate faces, edges, and vertices directly with your stylus or mouse for a more intuitive design experience.
- Real-time Rendering Visualize your designs with realistic materials and lighting to create stunning presentations for your clients.
- X-Ray View Look through your models to inspect internal components and hidden geometries without hiding outer shells.
- Standard Exports Export your work in industry-standard formats like STEP, IGES, and STL for seamless manufacturing integration.
- Offline Functionality Work on your designs anywhere without an internet connection, as all processing happens locally on your device.
SimFlow Features
- Mesh Generation. Create high-quality hex-dominant meshes automatically for complex geometries using the integrated snappyHexMesh and cfMesh tools.
- Multiphase Flow. Simulate interactions between different fluids, such as water and air, to predict cavitation, splashing, or free-surface movements.
- Heat Transfer. Analyze conduction, convection, and radiation within your designs to optimize cooling systems and thermal management strategies.
- Real-time Monitoring. Track residuals and physical quantities during the calculation process to catch errors early and save valuable computing time.
- Parallel Processing. Speed up your simulations by distributing the workload across multiple CPU cores with seamless MPI support.
- Post-processing. Visualize your results with integrated ParaView support to create stunning animations and detailed vector plots of fluid behavior.
Pricing Comparison
Shapr3D Pricing
- Up to 2 projects
- All modeling tools included
- Low-resolution STL export
- Import most file types
- Community support access
- Everything in Free, plus:
- Unlimited projects
- High-resolution X_T, STEP, IGES exports
- 2D Drawings toolset
- Real-time visualization and rendering
- Priority technical support
SimFlow Pricing
- Limit of 200,000 nodes
- All physical models included
- Parallel processing support
- Standard mesh tools
- Community support access
- Everything in Free, plus:
- Unlimited mesh nodes
- Priority technical support
- Perpetual license options
- Advanced geometry handling
- Full cluster compatibility
Pros & Cons
Shapr3D
Pros
- Incredibly intuitive interface for touch and stylus
- Fastest way to move from idea to 3D model
- Seamless transition between mobile and desktop apps
- High-quality rendering produces professional client presentations
- Works fully offline for remote design work
Cons
- Subscription cost is high for hobbyist users
- Lacks advanced simulation and stress analysis tools
- Limited history-based parametric editing compared to SolidWorks
SimFlow
Pros
- Intuitive GUI makes OpenFOAM accessible to beginners
- Excellent mesh generation capabilities for complex parts
- Free version is highly functional for small projects
- Supports a wide range of physical solvers
- Regular updates keep the software stable and modern
Cons
- Commercial licenses require a custom quote
- Learning curve remains steep for CFD theory
- Hardware requirements are high for large meshes