Beam Analysis
БесплатноНе проверенA lightweight MCP server for linear-static structural analysis of bridges and building frames, providing tools to build 3D beam/truss models, analyze with built
Описание
A lightweight MCP server for linear-static structural analysis of bridges and building frames, providing tools to build 3D beam/truss models, analyze with built-in or CalculiX solvers, and export to FreeCAD.
README
A lightweight MCP (Model Context Protocol) server for linear-static structural analysis of bridges and building frames, written in Node.js with no heavy dependencies.
It gives an AI client (Claude Desktop, Claude Code, Cursor, ...) tools to:
- Build 3D beam/truss models (nodes, members, sections, materials, supports, loads) or generate complete structures from parametric typology presets (girder bridges, Pratt/Howe/Warren truss bridges, arch bridges, cable-stayed bridges, portal frames, moment frames, 3D braced buildings, roof trusses).
- Analyze them with two engines:
beam— built-in 3D direct-stiffness frame solver (pure JavaScript, instant). Euler-Bernoulli elements with consistent fixed-end forces and exact in-span deflection/moment recovery — one element per member is enough.calculix— writes a CalculiX input deck (B32R beam elements), runsccx, and parses displacements/reactions. Useengine: "both"to cross-check the two solvers.
- Export to FreeCAD — builds a solid 3D model of the structure and saves a
.FCStddocument you can open and inspect in FreeCAD. - Get member force envelopes (N, V, M, T), stresses, and utilization (σ/fy), reactions, and displacements.
No CalculiX install needed if you have FreeCAD: FreeCAD bundles
ccxwith its FEM workbench, and this server auto-detects it (e.g.C:\Program Files\FreeCAD 1.1\bin\ccx.exe).
Requirements
- Node.js ≥ 18
- Optional: FreeCAD (provides both
freecadcmdfor export and the bundled CalculiX solver) - Optional: standalone CalculiX (
ccx) if you don't use FreeCAD
Install & run
git clone https://github.com/StructuralWizard/beam-analysis-mcp.git
cd beam-analysis-mcp
npm install
npm test # closed-form validation + MCP e2e + CalculiX cross-check
npm run typologies # analyze 10 bridge/building typologies with both engines
Claude Desktop / Claude Code configuration
Add to claude_desktop_config.json (or .mcp.json for Claude Code):
{
"mcpServers": {
"beam-analysis": {
"command": "node",
"args": ["C:/path/to/beam-analysis-mcp/src/server.js"]
}
}
}
Optional environment variables:
| Variable | Purpose |
|---|---|
CCX_PATH |
Explicit path to the CalculiX ccx executable |
FREECAD_CMD |
Explicit path to freecadcmd |
BEAM_MCP_OUTPUT |
Default directory for exported .FCStd / .inp files (default ~/beam-mcp-output) |
Tools
| Tool | Purpose |
|---|---|
check_environment |
Report Node/ccx/freecadcmd availability and unit conventions |
create_model |
Create an empty model |
list_structure_presets |
List parametric typology generators and their defaults |
generate_structure |
Build a complete bridge/building from a preset + parameter overrides |
add_nodes / add_material / add_section / add_members / add_supports / add_loads |
Manual model building |
analyze |
Run linear-static analysis (beam, calculix, or both with comparison) |
get_results |
Detailed displacements, reactions, or member force envelopes |
render_model |
Render an SVG figure: geometry, mesh, deformed shape, moment/shear/axial diagrams, stress/strain maps |
export_freecad |
Save a solid 3D .FCStd model (opens in FreeCAD) |
export_calculix_inp |
Write the CalculiX .inp deck without solving |
model_info / list_models / delete_model |
Session management |
Structure presets
| Preset | Typology |
|---|---|
beam_bridge |
Simply supported or continuous girder bridge (1..n spans) |
truss_bridge |
3D through-truss bridge — pratt, howe, or warren |
arch_bridge |
Deck arch bridge: parabolic rib + spandrel columns + deck girder |
cable_stayed_bridge |
Single-pylon fan-pattern cable-stayed bridge |
portal_frame |
Gable portal frame (warehouse/industrial shed) |
moment_frame_building |
Multi-story multi-bay moment-resisting frame |
braced_frame_building |
Full 3D building with columns, two-way beams, perimeter X-bracing |
roof_truss |
Triangular (Howe-style) roof truss |
Example conversation with an MCP client:
"Generate a 3-span continuous girder bridge (30 m + 40 m + 30 m), analyze it with both engines, and export it to FreeCAD."
which maps to generate_structure {preset: "beam_bridge", params: {spans: [30,40,30]}} → analyze {engine: "both"} → export_freecad.
Conventions
- Units: SI — meters, Newtons, Pascals, kg/m³. Downward loads are negative
fz/wz. - Axes: global +Z is up. Member local x runs along the member; for non-vertical members local z lies in the vertical plane, so section depth
hresists gravity bending (strong axis =Iy). - Supports:
fixed,pinned,roller(uz),roller-yz(bridge sliding bearing),planar-xz(out-of-plane restraint for 2D models), or a custom 6-flag string like"111100"(ux,uy,uz,rx,ry,rz). - Member types:
beam(6-DOF frame element) ortruss(axial only — braces, cables, truss webs).
Validation
Full test documentation — every test case, the theory it checks against, tolerances, and the investigation notes behind the cross-engine differences — is in docs/VALIDATION.md.
An illustrated per-structure validation report for all 10 typologies — geometry/supports/loads figures, CalculiX meshes, load cases with superposition checks, deformed shapes (built-in vs CalculiX overlay), moment/shear/axial diagrams, stress & strain maps, CalculiX von Mises fields parsed from .frd, and 35 analytical hand-calculation checks — is in docs/validation/.
npm test checks the solver against closed-form solutions:
- Simply supported beam under UDL:
5wL⁴/384EIdeflection andwL²/8moment (exact to 1e-6) - Cantilever tip load / UDL:
PL³/3EI,wL⁴/8EI, fixed-end moments - Two-bar truss axial force
P/(2 sin θ) - Equilibrium (ΣR = ΣF) on every generator preset
- Cross-validation against CalculiX (skipped automatically if
ccxis not installed)
npm run typologies builds and analyzes 10 typologies end-to-end and prints a built-in vs CalculiX comparison table. Results on the reference machine (FreeCAD 1.1 bundled CalculiX 2.22, Windows 11):
| # | Typology | Nodes/Members | Max defl. beam [mm] | Max defl. ccx [mm] | Diff | Equilibrium |
|---|---|---|---|---|---|---|
| 1 | Simply supported girder bridge (35 m) | 7/6 | 137.40 | 138.11 | 0.5% | ok |
| 2 | Continuous girder bridge (30+40+30 m) | 19/18 | 56.65 | 57.83 | 2.0% | ok |
| 3 | Pratt truss bridge (60 m) | 32/74 | 48.46 | 48.23 | 0.5% | ok |
| 4 | Warren truss bridge (64 m) | 34/79 | 69.51 | 69.27 | 0.3% | ok |
| 5 | Deck arch bridge (90 m) | 34/47 | 10.72 | 10.74 | 0.2% | ok |
| 6 | Cable-stayed bridge (140 m) | 15/26 | 118.90 | 118.72 | 0.2% | ok |
| 7 | Portal frame warehouse (30 m) | 5/4 | 136.30 | 131.22 | 3.7% | ok |
| 8 | 5-story moment frame | 24/35 | 5.60 | 5.59 | 0.3% | ok |
| 9 | 6-story 3D braced tower | 63/174 | 11.51 | 19.64 | 41%* | ok |
| 10 | Howe roof truss (28 m) | 16/29 | 13.86 | 13.22 | 4.6% | ok |
* Expected: the tower mixes several cross-sections, and CalculiX models joints between members of different sections as flexible "knots" (see Limitations). Re-run with uniform sections and the two engines agree within 6%.
Limitations
- Linear static only: no buckling, no dynamics, no P-Δ, no nonlinear cable sag (stays are modeled as linear truss members that can also take compression).
- The two engines answer slightly different questions: the built-in solver assumes ideal rigid joints (classic beam theory), while CalculiX expands beams into solid elements and models joints between members of different sections as "knots", which are more flexible. Agreement is sub-1% on determinate structures and within a few % on frames with uniform sections, but expect larger differences (which ccx reports as a note) on tall 3D frames mixing many sections.
- CalculiX backend reports displacements and reactions; member force envelopes come from the built-in engine.
- I-sections and generic sections are mapped to an equivalent rectangle in the CalculiX deck (ccx beam sections support RECT/CIRC/PIPE/BOX only).
- Results are for preliminary/educational analysis — not a substitute for design verification by a qualified engineer.
License
MIT
Установить Beam Analysis в Claude Desktop, Claude Code, Cursor
unyly install beam-analysisСтавит в Claude Desktop, Claude Code, Cursor и VS Code — сам разбирается с npx, uvx и сборкой из исходников.
Впервые? Поставь CLI: curl -fsSL https://unyly.org/install | sh
Или настроить вручную
Выполни в терминале:
claude mcp add beam-analysis -- npx -y github:StructuralWizard/beam-analysis-mcpFAQ
Beam Analysis MCP бесплатный?
Да, Beam Analysis MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Beam Analysis?
Нет, Beam Analysis работает без API-ключей и переменных окружения.
Beam Analysis — hosted или self-hosted?
Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.
Как установить Beam Analysis в Claude Desktop, Claude Code или Cursor?
Открой Beam Analysis на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.
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