This simulation model showcases the incredible capabilities of Abaqus' general contact feature, allowing you to simulate a realistic scenario with numerous contacting bodies.
Price: $10
Attention:
Please note that this CAE file cannot open in versions lower than Abaqus 6.14.4.
After receiving payment, the delivery process will start, and all related files will be sent through email.
For any help regarding orders, please feel free to contact shwenwe13@gmail.com. Thanks for your support.
Discover the power of the extended finite element method (XFEM) in predicting crack growth rate with our simulation model. Gain valuable insights into modeling crack initiation and propagation using XFEM technique in structural analysis.
Price: $10
Attention:
Please note that this CAE file cannot open in versions lower than Abaqus 6.14.4.
After receiving payment, the delivery process will start, and all related files will be sent through email.
For any help regarding orders, please feel free to contact shwenwe13@gmail.com. Thanks for your support.
Step into the world of explicit dynamic modeling as we explore into the captivating scenario of an F-4 Phantom crashing into both a concrete and rigid wall. Through this model, you will gain invaluable insights into the construction of an explicit dynamic model using aluminum alloy, a material commonly used in aircraft structures.
To accurately capture the impact scenario, our model incorporates nonlinear and strain rate-dependent effects, necessitating the utilization of Johns-Cook's constitutive law for metal plasticity. Additionally, the Concrete Damage Plasticity model is employed to accurately represent the behaviour of concrete.
To facilitate a comprehensive comparison of impact phenomena, it was conducted simulations of the aircraft colliding with both a rigid wall and a concrete wall. For the rigid wall simulation, a rigid body with identical height and width dimensions as the concrete wall is employed. The wall is fixed in all degrees of freedom at its reference point.
To optimize computational efficiency, the aircraft is positioned in front of the wall with an initial velocity of 800 km/h in the flight direction. This approach allows us to efficiently analyze and evaluate the results of different impact scenarios while reducing overall computational time.
Unlock the power of simulation and witness the intricate dynamics of an F-4 Phantom colliding with concrete and rigid walls. Discover the remarkable capabilities of our model as it sheds light on the structural behavior of materials in extreme scenarios.
Price: $10
Attention:
Please note that this Cae file cannot open in versions lower than Abaqus 2020.
After receiving payment, the delivery process will start, and all related files will be sent through email.
For any help regarding orders, please feel free to contact shwenwe13@gmail.com. Thanks for your support.
Discover the power of explicit modeling as you delve into the fascinating world of nonlinear free fall dropping. With our simulation model, you'll learn step-by-step how to construct a dynamic model that accurately captures the behavior of an elastomer rubber sheet falling onto a table using Abaqus/CAE.
Gain invaluable insights into the mechanics of elastomer materials and their response to impact forces with our comprehensive simulation model. Explore the complexities of nonlinear free fall dropping, and witness firsthand the intricate interplay between the elastomer sheet and the table surface in a virtual environment.
Price: $10
Attention:
Please note that this Cae file cannot open in versions lower than Abaqus 6.14.4.
After receiving payment, the delivery process will start, and all related files will be sent through email.
For any help regarding orders, please feel free to contact shwenwe13@gmail.com. Thanks for your support.
In this simulation model, you will explore the application of Abaqus software, to simulate the dynamic behavior of an aircraft during a crash event. By analyzing the structural response and predicting the impact forces and deformation patterns, you can gain valuable insights into the crashworthiness of the aircraft design and improve safety measures.
Price: $10
Attention:
Please note that this Cae file cannot open in versions lower than Abaqus 6.14.4.
After receiving payment, the delivery process will start, and all related files will be sent through email.
For any help regarding orders, please feel free to contact shwenwe13@gmail.com. Thanks for your support.
Experience the power of simulation with Impact Arrow on Circular Sheet, this model designed to enhance your understanding of explicit dynamic modeling in Abaqus/CAE. Uncover the potential of ductile damage feature as you construct a robust dynamic model that accurately simulates real-world scenarios.
Price: $10
Attention:
Please note that this Cae file cannot open in versions lower than Abaqus 6.14.4.
After receiving payment, the delivery process will start, and all related files will be sent through email.
For any help regarding orders, please feel free to contact shwenwe13@gmail.com. Thanks for your support.
