The Physics of
Digital Scaling
We create customized solutions for the engineering sector, helping companies improve design, analysis, and technical workflows through automation and easy-to-use software.
We bridge the gap between complex engineering physics and modern software scalability.
Solutions
Corrugated steel water tank solution
- Design complex engineering structures using simple data inputs
- Receive a complete package of technical documentation, from drawings to purchase lists and quotations
- No engineering skills are required. The program performs all calculations and checks itself.
Frame design tool solution
- Design complex engineering structures using simple data inputs
- Receive a complete package of technical documentation, from drawings to purchase lists and quotations
- No engineering skills are required. The program performs all calculations and checks itself.
Specialized design tools
- Design complex engineering structures using simple data inputs
- Receive a complete package of technical documentation, from drawings to purchase lists and quotations
- No engineering skills are required. The program performs all calculations and checks itself.
Technologies
Visualization and parameterization
Dynamic geometry preview of complex joints and structures with intuitive parametric customization.
Design code calculations
Calculation methods according to European standards (Eurocode), American standards (AISI), local standards (BEF bulletin and DIN) and others.
Powerful FEM solver
FEM engine is capable of performing nonlinear stability analysis, damage plasticity analysis, thermal stress analysis, and more.
Calculation reports
Detailed calculation reports with info-graphics, formulas, and adjustable level of detail.
3D model & CAD generator
Generation of CAD drawings based on existing templates or using vectoring directly from a 3D model, as well as export to IFC.
Related technical & commercial documents
Price calculation, production planning, material specifications, purchasing list, and other related documents.
Proven Expertise
General steel structures and warehouse
Global stability verification during construction stages
Global stability analysis of steel-concrete composite bridge during construction stages, with a focus on the structural response at intermediate erection and casting of concrete slabs phase.
Provision of rigidity and overall stability
Ensuring the lateral and vertical stability of the frame by installing a system of vertical and horizontal bracing, and through the combined action of steel beams and columns.
Improvement of stiffener systems
Detailed investigation and optimization of stiffener systems in steel box bridge girders to improve structural efficiency, local and global stability performance, fabrication practicality, and overall material utilization.
Optimization of complex steel connections and cast nodes
Development of smooth stress-flow-oriented thickness transitions to reduce stress concentrations and ensure efficient load transfer between connected members.
Concrete RC, PSC and precast structures
Precast bridge design and analysis
Structural simulation under static loading, moving loads, seismic actions, and pile foundation-soil interaction, allowing for a comprehensive assessment of the bridge performance under realistic service and extreme loading scenarios.
Advanced nonlinear analysis of concrete members
Smeared crack material modeling and the concrete damage plasticity approach, enabling the investigation of complex crack initiation and crack propagation processes together with the redistribution of stresses in the reinforcing bars.
Post-tensioned bridge design and analysis
The numerical investigation considered tendon activation during different construction phases as well as the effects of creep and shrinkage, allowing for realistic prediction of time-dependent structural behavior and verification of the bridge response throughout the erection process.
Engineering solutions for complex loading conditions
Comprehensive design of a reinforced concrete separator wall for bulk material storage, addressing continuous dynamic lateral pressure and additional crane-induced loads.
Detailed FEM analysis and research
Geometric and material non-linearity analysis
Global and local stability of structural members with consideration of geometric, material, and other nonlinear effects.
Material ductility and damage simulation
Material modeling and simulation of ductile behavior, damage development, and material failure based on laboratory test data.
Thermo-mechanical analysis
Heat transfer and deformation simulation to evaluate structural response under fire exposure, welding-related thermal effects, and other temperature-dependent loading scenarios.
Linear and nonlinear dynamic analysis
Assessment of the response of special structures to impacts, transient loads, vibration, shocks, and other dynamic effects that influence both overall and local characteristics.
Lifting anchors and embedding development
Anchor-to-concrete interaction analysis
Simulation of lifting anchor performance in concrete through fastening and anchorage mechanisms, with evaluation of stress distribution and load transfer within the surrounding material.
Anchor-to-reinforcement interaction analysis
Detailed FE simulation of lifting anchors interacting with additional reinforcement under multi-directional loading, enabling accurate assessment of force transfer and local stress conditions.
Profile-to-concrete interaction analysis
Investigation of load sharing between tubular steel profiles and concrete in cantilever systems, ensuring reliable force distribution and structural efficiency.
Anchor-to-lifting device interaction analysis
Assessment of force transfer between anchors and lifting clutches of complex geometries, including threaded steel component interaction and its influence on overall system behavior.
Contact
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