Vibration Attenuation Soil Model via ABAQUS

₹1500-12500 INR

Closed

Posted about 2 months ago

₹1500-12500 INR

Paid on delivery

Title ABAQUS 2018 – 3D Rectangular Soil Model with Borehole Isolation ([login to view URL] Project) ⸻ Description I need a 3D numerical model in ABAQUS 2018 for an [login to view URL] project. The objective is to evaluate ground vibration attenuation using borehole isolation and calculate the Amplitude Reduction Factor (ARF) at foundation level. This is a simplified academic model, focused on comparison (with vs without isolation), not a full train–track simulation. ⸻ Scope of Work • 3D rectangular soil domain • Layered soil based on borelog data (will be provided) • Dynamic analysis (time-history or harmonic) • Two cases: 1. Without borehole isolation 2. With borehole isolation ⸻ Geometry Details Soil Domain • Plan dimensions: 40 m × 30 m • Depth: 20 m • Soil layers up to 15.5 m, remaining depth same as last layer ⸻ Foundation (Pile Cap) • Size: 1.9 m × 1.9 m × 0.6 m • Located at center • Can be modeled as rigid block (simplified) ⸻ Borehole Isolation • Arrangement: semi-circular / arc around foundation • Number of boreholes: 7 • Diameter: 0.4 m • Spacing: 0.4 m clear • Boreholes to be modeled as voids (cut from soil) ⸻ Material Properties • Linear elastic / equivalent-linear soil behavior • Poisson’s ratio: 0.45 • Density: 1700–1760 kg/m³ • Damping: 3–5% Rayleigh ⸻ Boundary Conditions • Bottom: Fixed • Side boundaries: absorbing / infinite boundaries (mandatory) • Top: Free surface ⸻ Loading • Dynamic vertical load (harmonic or time-history) • Real vibration data available (can be used if needed) ⸻ Outputs Required • Velocity time history at foundation • Peak Particle Velocity (PPV) • Comparison: • Without isolation • With borehole isolation Final Output: • Amplitude Reduction Factor (ARF) ⸻ Deliverables • ABAQUS 2018 (.cae file mandatory) • ABAQUS .inp file • Screenshots: • Geometry • Mesh • Boundary conditions • Results • Short explanation note (1–2 pages) ⸻ Timeline 5–7 days 1 revision included ⸻ Budget ₹5,000 – ₹8,000 ⸻ How to Apply Please include: 1. Experience with 3D dynamic modelling in ABAQUS 2. How you will implement absorbing/infinite boundaries 3. Sample work (if available)

Geotechnical Engineering

Civil Engineering

Finite Element Analysis

Research and Development

Project ID: 40278531

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Active 11 days ago

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@Rashidminhas457

Hi I am a Mechanical Engineer with strong expertise in 3D dynamic simulations and have extensive experience working with soil–structure interaction models in ANSYS and similar FEM environments, and I can confidently develop your 3D rectangular soil model in ABAQUS 2018. I will model the layered soil domain, rigid pile cap, and borehole void isolation accurately, and implement absorbing/infinite boundaries using dashpot-based or infinite element techniques to properly simulate wave attenuation. The study will include both cases (with and without isolation), extraction of velocity time history, PPV calculation, and final ARF comparison with clear documentation. You will receive the complete .cae and .inp files, structured model tree, screenshots, and a concise technical note explaining modeling assumptions and results. Sample dynamic and vibration-based FEM projects can be shared upon request. Thanks

₹10,000 INR in 6 days