Set inputs and design standard
Geometry, loads, materials, and US / EU / ISO defaults.
Beam · AISC
- Section
- W12×26
- Span
- 4.0 m
- w
- 12 kN/m
- E
- 200 GPa
Design-assist for practicing engineers
Size members, screen advanced systems, and check utilization — with standards context, explicit assumptions, and exportable reports. PhyCalcPro is a workspace, not a black-box solver.
68 engineering modules across 12 disciplines.
Beam module
Bending stress
142 MPa
Utilization 0.71
Max deflection
8.4 mm
L/476 · limit L/360
Reaction
24.5 kN
Each support
Workflow
Data pipeline
Inputs, checks, and exports stay linked — nothing is a black-box number.
Geometry, loads, materials, and US / EU / ISO defaults.
Beam · AISC
Utilization, margins, warnings, and implemented code checks.
Checks
PDF or CSV with calculation context for review and records.
Report
By application
Route by discipline and job type — mechanical hardware, industrial structures, advanced systems, materials, or manufacturing — rather than hunting for a formula.
Shafts, gears, bearings, flywheels, brakes, clutches, and power transmission.
Beams, frames, trusses, plates, columns, and combined loading checks.
Vacuum, cryogenic, magnetic, superconducting, thermal, battery, and hydrogen screening.
Heat transfer, battery cooling, hydrogen storage, and pressure-system helpers.
Material data, section properties, temperature effects, corrosion, and fatigue.
Tolerances, fits, cost estimates, and process planning.
Featured modules
Deflection, bending moment, shear force
Torsion, bending, fatigue analysis
Pump-down, conductance, leak rate and chamber-force tools
Heat leak, boil-off, cooldown and thermal contraction screening
Solenoid fields, Lorentz forces, inductance and coil heating
Pack heat generation, busbars, cooling and vent screening
Catalog
68 modules with unit handling, standards metadata, and exportable results.
Beams, frames, columns, plates, and structural analysis
8 modules
Belts, chains, and multi-pulley drives
4 modules
Shafts, gears, and rotating systems
11 modules
Rolling element, plain hydrodynamic, and housing design
3 modules
Helical compression, extension and torsion springs
3 modules
Bolts, welds, rivets, keys, pins — ISO, DIN, ANSI, ASME context
6 modules
Material properties and cross-sections
8 modules
Pipes, vessels, and pressure components
4 modules
Motion, vibration, and dynamic systems
5 modules
Tolerance analysis and fit systems
4 modules
Cryogenic, vacuum, electromagnetic and emerging engineering systems
8 modules
Load cases, safety factors, formulas and unit conversion
4 modules
Who builds this
PhyCalcPro is built and maintained by practicing engineers who use these workflows daily. We prioritize transparent methods, readable outputs, and honest maturity labels over marketing claims. If a result looks wrong or a standard check is missing, we want to hear about it — with your worksheet, units, and design code.
Contributors can submit benchmark cases through our verification program. Accepted comparisons help modules move from β to verified on the quality dashboard.
Published quality data
Last CI verification: 86/86 benchmark cases passed · Jul 17, 2026
Modules in CI
67
Automated regression solvers
With benchmarks
67
Cases in last-run report
Certified
0
Verified
65
Beta
0
Indicative
1
Draft
2
Why PhyCalcPro
We do not claim automatic code compliance. Each module states what it checks, what it omits, and its verification status. Review the trust page and quality dashboard before relying on results for project work.
Modules expose design-code selectors, unit handling, and explicit notes on what is — and is not — implemented for each standard.
Results travel with warnings, reference metadata, and export-ready summaries so you can explain the calculation later.
Release tiers and automated benchmarks are published on the quality dashboard. β modules are labeled until independently verified.
Questions about methods or verification? We read every message.