Análisis de elementos finitos Jobs
We have 3d model of an artificial heart that made by SOLIDWORKS and we need to run the simulation of pumping with ansys
I am doing a project for basic FMEA. It is a very small project. I have to analyze stress on a superheater U-tube with 50.8 mm (OD) and 5.7mm thickness. I want the project to be performed on ANSYS WORKBENCH. The temperature range will start at 700 C and end at 950 C with a increment of 50 C (pressure to remain constant while performing the simulation- 18 MPa). Also, I need a crack propagation analysis on horizontal/straight section of the pipe. Crack dimension will be h= 0.5 mm (on each side from center) and a= 2.4 mm (on each side from center). I am ready to discuss further for any clarification. Thanks
I'm looking for an expert in ETABS and response spectrum analysis to double check an ETABS model of a 30 story building for errors.
We would like to simulate the sph modelling of fssw process. The journal paper we are referring is also attached.
I am looking for a person who has a good experience in threat modeling to do urgent job right now
I want to mesh a square cylinder enclosed in a rectangular domain. Dimensions are: side of square cylinder: 1 m upstream distance: 20 m downstream distance: 40 m height of domain 60 m I am enclosing a sample 2D mesh. The project is to create a 3D mesh so that I could do numerical simulations on it with dynamic meshing. Dynamic meshing setting will be done in the circular zone near the square cylinder.
I want to mesh a square cylinder enclosed in a rectangular domain. Dimensions are: side of square cylinder: 1 m upstream distance: 20 m downstream distance: 40 m height of domain 60 m I am enclosing a sample 2D mesh. The project is to create a 3D mesh so that I could do numerical simulations on it with dynamic meshing. Dynamic meshing setting will be done in the circular zone near the square cylinder.
Using Simpack tool, Analysis of load distribution on multiple gearboxes
Complete this project on Visual Basic C++ or Python to above standard expectations. Further Detail of what is required is on the document attached. 1. Analysis Fully or nearly fully scoped analysis of a real problem, presented in a way that a third party can understand. Requirements fully documented in a set of measurable and appropriate specific objectives, covering all required functionality of the solution or areas of investigation. Requirements arrived at by considering, through dialogue, the needs of the intended users of the system, or recipients of the outcomes for investigative projects. Problem sufficiently well modelled to be of use in subsequent stages. 2. Documented Design Fully or nearly fully articulated design for a real problem, that describes how all or almost all ...
analysis of load distribution and lifetime of an offshore winch drivetrain
analysis of load distribution and lifetime of an offshore winch drivetrain
1.) Perform Dynamic load Simulation with Below FEA Approach a.) FSI Coupled with Temperature Effect Analysis b.) Random Vibration Analysis 2.) Fluid Fatique Life estimation of Assembly (> 10000 hrs) 3.) Qwgs Update to include all the features like seal and updated the assy dwg. 4.) Prepare the CDR Document with above content and additional information 5.) Participate in CDR and present the same.
I am working on Non-Isothermal PE-100 pipe extrusion. I am applying cross law for viscosity dependence on shear rate and Arrhenius law for viscosity dependence on temperature in direct extrusion at POLYFLOW. When i run, it shows solution is not converge. When I change the viscosity to be not temperature dependent, then the solution can be converged. So there is any way to make it converge and in the same time take the temperature into account to determine the viscosity? where I am wrong? I am struck here. Kindly help me.
I need professional expert can make the model and analysis ABAQUS Software for NUMERICAL ANALYSIS OF MODIFIED BOLTED INTERNAL STEEL CONNECTIONS WITH ELBOW PLATES
Need analysis of four walls having different height and parameters like factor of safety. Analysis must be done using plaxis.
I need you to create a structural topology optimization code using the FEniCS Package, preferably the sensitivity calculated using Dolfin Adjoint. This code should perform two dynamic problems: Free Vibrations or eigenvalue problems; and Forced Vibrations. The SIMP approach should be considered. The code must generate in addition to the final design seen in Paraview, it must show all iterations, the Compliance X Iteration X Volume Reduction graph and also the Natural Frequency X Iteration graph. All for at least the first three modes in modal analysis, and in forced vibration considering established frequency ranges. References: BENDSOE, M. P.; SIGMUND, O. Topology Optimization: Theory, Methods, and Applications. [s.l.] Springer Berlin Heidelberg, 2003. ANDREASSEN, E. et al. Efficient ...
