PRODUCTS

Explore our exclusive collection of lattice structure STL files (30 samples) featuring diverse strut types like Edge, Octagon, Hex Truss, Kelvin, Corner Diagonal, and Face Center. With customizable strut diameters (0.6 to 1.0), our designs cater to all your advanced manufacturing needs. Ideal for 3D printing, engineering projects, and prototyping, our files guarantee superior structural integrity and performance.

Why Choose Our Files?

• Ready-to-print STL formats

• High-precision and optimized designs

• Versatile applications across industries

Price: 32 dollars

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Python scripting can automate the pre-processing, simulation, and post-processing stages of orthogonal cutting analysis in Abaqus. During pre-processing, scripts can be used to parametrically define cutting tool geometry, workpiece dimensions, and material properties, reducing manual setup errors. Python can further streamline the definition of boundary conditions, interactions, and mesh generation, allowing for rapid creation and modification of multiple simulation cases. By integrating loops in the script, various cutting parameters such as feed rate, cutting speed, and rake angle can be varied systematically for a comprehensive parametric study. In the post-processing stage, Python can extract essential outputs like stress, strain, cutting forces, and temperature distributions directly from the simulation results. These outputs can be automatically visualized or exported for further analysis. 

Price: 20 dollars

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Frequency response analysis evaluates how a structure or system responds to varying frequencies of external forces. It helps identify resonant frequencies where the system may experience excessive vibrations, leading to potential failures. In real life, this analysis is crucial in designing and testing structures like bridges, aircraft, and machinery to ensure they can withstand dynamic loads without resonating at harmful frequencies, thereby enhancing safety and performance. 

Price: 15 dollars 

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In this course, we will study the materials with designed microstructures, often referred to as "architected materials." These materials exhibit unique properties and behaviors due to their carefully engineered internal architectures. 

We'll focus on two common types of representative volume elements (RVEs): cube-based and cylinder-based, exploring their creation and modification using specialized software. Then, we'll utilize finite element method (FEM) software to simulate the mechanical behavior of these structures under various loading conditions. This will allow us to predict their performance and optimize their design for specific applications.

Price: 50 dollars

Mail us at contact@aifablab.com