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Anonymous1769546415
01-27 21:07
Model Name
disaster-resilient house 3d model
Tags
architecture
architecture realistic
architecture simulation
architecture simulation realistic
realistic
simulation
simulation realistic
this
Prompt
Create a highly detailed, precise 3D architectural model of a disaster-resilient, sustainable single-family home, designed using principles of material science, physics, and chemistry. This model is for a science and engineering presentation, not concept art. Accuracy, completeness, legibility, and clarity are more important than speed or artistic style. CRITICAL GENERATION INSTRUCTIONS • Generate the model slowly and methodically, step by step • Do not skip or simplify components • Do not merge systems together • Do not rush the labeling • Ensure all required features are present before finalizing the model • Prioritize correctness, realism, and educational clarity over visual flair GEOMETRY & STRUCTURAL RULES (NON-NEGOTIABLE) • Use rigid, CAD-like 3D geometry • Straight edges, flat planes, sharp corners • No warping, melting, wobbling, stretching, or organic distortion • All walls, roofs, panels, tanks, pipes, and windows must look structurally solid • Realistic thickness for walls, roof layers, beams, pipes, and panels • Everything must clearly look three-dimensional, not flat or painterly REQUIRED ARCHITECTURAL ELEMENTS (MUST BE VISIBLE AND LABELED) • Fire-resistant front entry door (clearly labeled) • Impact-resistant windows with straight frames • Clearly defined roof, exterior walls, foundation slab, and interior volumes • Interior living space, utility/mechanical room, and storage area • Exterior access paths and entry points No element may be implied. Every item must be visually present and labeled. ENGINEERED SYSTEMS (EACH SYSTEM MUST BE FULLY LABELED AND SEPARATE) Wildfire-resistant design Label each of the following with large, readable text: • Fiber-cement or concrete exterior walls • Standing-seam metal roof • Sealed vents with metal mesh • Fire-resistant glazing • Minimal roof overhangs Each label must include material name + function Example: “Metal Roof – High melting point, non-combustible” High-wind resistance (tornado / hurricane) Label: • Aerodynamic roof geometry • Hurricane straps • Reinforced wall-to-foundation anchoring • Impact-resistant windows • Continuous load path Use thick arrows to show wind forces traveling from roof → walls → foundation. Rainwater harvesting system Label every component, using arrows to show flow direction: • Roof gutters • Downspouts • First-flush diverter • Filtration unit • Corrosion-resistant storage tank • Outlet or distribution pipe Labels must be large enough to read clearly at presentation scale. Solar energy system (outage-ready) Label: • Solar panels (crystalline silicon) • Inverter • Battery storage unit • Electrical panel • Wiring paths Use arrows to show energy flow from panels → inverter → battery → house. CUTAWAY / EXPLODED VIEW (MANDATORY) Include a precise, technical cutaway or exploded section showing and labeling: • Roof layers (metal roof, insulation, decking) • Wall layers (exterior shell, insulation, interior finish) • Foundation and anchoring system • Rainwater storage and filtration • Electrical wiring, inverter, and batteries All layers must be aligned, planar, and separated, not blended or distorted. LABELING REQUIREMENTS (VERY IMPORTANT) • Labels must be large, high-contrast, and readable • Use straight leader lines, not curved or floating text • Every major component must have at least one label • No tiny text, no blurry annotations • Labels should explain what it is AND why it works • Place labels so they do not overlap or clutter the model Assume the model will be viewed on a projector or shared screen. STYLE REQUIREMENTS • Realistic, educational, engineering-focused • Neutral color palette (grays, whites, metallic tones) • Clean background, studio lighting • No cartoon style, no abstraction, no futuristic exaggeration CAMERA & OUTPUT • Isometric or three-quarter view • High resolution • Single coherent 3D model • Suitable for rotation, zooming, and explanation during a presentation FINAL CHECK BEFORE OUTPUT Do not finalize the model until: • Every system is present • Every system is labeled • Geometry is rigid and non-wobbly • Labels are readable and complete
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