These pages have been prepared to assist in the use of ANSYS for the formulation and solution of various types of finite element problems. Questions or comments can be sent to Kent L. Lawrence lawrence mae. Truss Examples 2. A Truss1 - Simple 2D truss. B El type - Including multiple materials and cross sectional areas in a text file.
C Truss2 - 2D Truss with multiple element properties.
Plane Stress Examples 3. A Plane Stress - Stresses in plate with a hole. D p-Method - Solution accuracy control using higher order elements. Axisymmetric Problems 4. Three Dimensional Models 5.
B Therm Stress - Thermal stresses in a vessel with spherical end caps. Beam Examples 7. B 'L' beam - Simple 3D Beam. Plate Models 8. C Simply Supported Plate Example of shell element modeling 9.
A Truss Freq. B beamvib - 2D beam carrying non-structural masses. Miscellaneous Topics A Mapped Meshes - Creating meshes with specific properties. D Printing Results - Tips for obtaining hard copy of your results.
All rights reserved. Introduction 1. A Solutions Format and Samples 1. B Areas - Interactive creation of area geometry. E Helpful Web Sites. C Simply Supported Plate Example of shell element modeling.The following projects are based on ansys. You can build this project at home. You can build the project using online tutorials developed by experts.
Get certificate on completing. Want to develop practical skills on latest technologies? Checkout our latest projects and start learning for free. The Aerospace industry is increasingly relying on advanced numerical flow simulation tools for analyzing all the components of aircraft. The main part which helps in producing lift is wings. So, the shape of the aerofoil should be designed in such a manner so that maximum lift can be achieved.
In this project, you are going to work on a standard NACA airfoil and analyze it using finite element volume tool AcuSolve. Then you have to validate your numerical result with the wind tunnel experiment result.
Heat Exchangers are widely used in most engineering fields, such as the process, power, automotive, cryogenics, refrigeration, air conditioning, heat recovery, manufacturing industries, etc. So, a lot of research is going on to develop and improve heat exchanger effectiveness. In this project, you are going to Analyze fluid flow in a heat exchanger using an analysis software and then compare the result data with the experimental result of a Heat Exchanger setup.
The aerodynamic properties of a cricket ball can greatly be affected by the prominence of the seam, the surface roughness of the ball in play, and the launch attitude of the ball by the bowler.
Based on seam angle and surface roughness of the ball, an asymmetric airflow over the ball due to pressure difference can be generated thereby deviating the flight from the intended path. This potential flight deviation is called swing.
Therefore, it is extremely important to understand the aerodynamic properties of used cricket balls as wear and tear can have a major effect on the swing. The primary objectives of this work were to understand the aerodynamic properties of a series of used cricket balls, thus the mechanism of swing as well as the drag of a cricket ball.
The design and fabrication of a braking system is a difficult task. The application of brakes using vacuum in automobiles is a more difficult task in the initial stages of the work. But it has been successfully proved that such brake application is possible with the fail-safe condition.
While implementing this idea on a heavy vehicle, it is better to replace the manually operated directional control valve with solenoid operated directional control valve to reduce driver effort and also it will work like a brake pedal switch.
In this project, you will design and fabricate a vacuum braking system for a Train. A Leaf spring is used in a four-wheel automobile vehicle as a part of the suspension system. These springs are generally made from steel, which adds a lot of weight to the vehicle leading to a decrease in the efficiency.
In the case of lightweight vehicles, things become worse, as the weight of these spring is too heavy it leads to lower performance.
In this project, you are going to solve this problem by designing a leaf spring in a solid modeling software and optimizing your design by varying the dimension and type of composite material so that weight will be reduced without compromising the effect needed from the spring. This project focuses on the design and thermal analysis of rectangular fin array with perforation and without perforation.
Fins are commonly used to increase. Vertical Turbine Pumps are the centrifugal pumps which are mounted vertically. Generally, turbine pumps have constant head and fluid flows uniformly at high pressure. Natural frequencies of a vertical turbine pump are. The strength assessment of the hood assembly is important when it comes to meet the design standards.
The hood assembly is an important system in a car from the safety point of view and has a direct relationship with the appearance aspect of the car.Available Now. Read the Press Release. To support the fight against COVID, Ansys is sharing key insights from our own analyses and those of our customers and partners. By understanding the physics of how it is spread and how it may be contained, we can all be a part of the solution. Learn More. ANSYS offers a comprehensive software suite that spans the entire range of physics, providing access to virtually any field of engineering simulation that a design process requires.
Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment.
With the easy-to-use tools, you can build and optimize lighter and smarter products. ANSYS software can uniquely simulate electromagnetic performance across component, circuit and system design, and can evaluate temperature, vibration and other critical mechanical effects. ANSYS provides a model-based embedded software development and simulation environment with a built-in automatic code generator to accelerate embedded software development projects.
ANSYS software ensures accurate, consistent, traceable materials information every time and provides the tools you need to support design, research and teaching. The ANSYS simulation platform delivers the broadest suite of best-in-class simulation technology and unifies it with your custom applications, CAD software and enterprise business process tools such as PLM.
ANSYS empowers customers with multiphysics simulations to simultaneously solve power, thermal, variability, timing, electromagnetics and reliability challenges across the spectrum of chip, package and system to promote first-time silicon and system success. With the finite element analysis FEA solvers available in the suite, you can customize and automate solutions for your structural mechanics problems and parameterize them to analyze multiple design scenarios.
As product complexity grows, so does the challenge of integrating individual components within a system to ensure they work together as expected. Global aerospace leader Airbus used ANSYS fluid—structure interaction and other multiphysics simulations to maximize the performance and minimize the cost and lead time of its cutting-edge spacecraft product.
Honeywell improved their RFID antenna systems with ANSYS electromagnetic simulation software to virtually evaluate new designs in mere minutes, significantly reducing product development lead time. The largest engineering simulation virtual event in the world. Realize Your Product Promise ANSYS offers a comprehensive software suite that spans the entire range of physics, providing access to virtually any field of engineering simulation that a design process requires.
Electronics ANSYS software can uniquely simulate electromagnetic performance across component, circuit and system design, and can evaluate temperature, vibration and other critical mechanical effects.
FEA ANALYSIS PROJECTS
Embedded Software ANSYS provides a model-based embedded software development and simulation environment with a built-in automatic code generator to accelerate embedded software development projects. Materials ANSYS software ensures accurate, consistent, traceable materials information every time and provides the tools you need to support design, research and teaching. Semiconductors ANSYS empowers customers with multiphysics simulations to simultaneously solve power, thermal, variability, timing, electromagnetics and reliability challenges across the spectrum of chip, package and system to promote first-time silicon and system success.
Structures With the finite element analysis FEA solvers available in the suite, you can customize and automate solutions for your structural mechanics problems and parameterize them to analyze multiple design scenarios. Systems As product complexity grows, so does the challenge of integrating individual components within a system to ensure they work together as expected.
View All Products. Spotlight on Airbus Global aerospace leader Airbus used ANSYS fluid—structure interaction and other multiphysics simulations to maximize the performance and minimize the cost and lead time of its cutting-edge spacecraft product. Spotlight on Honeywell Honeywell improved their RFID antenna systems with ANSYS electromagnetic simulation software to virtually evaluate new designs in mere minutes, significantly reducing product development lead time.
Industry Recognition and Awards.Gears are widely used in all types of machinery in the industry. Ever since gear was known for many years before, they become the integral part of every machine.
The initial gear drives were simple and a rod inserted mounted axially. They used to transmit rotational force or circular motion from one part to another. Pair of gears are used with a lower speed cycle. The main difficulty by this system is when the loads and speed were raised the contact stresses were generated at the tip of contact where materials could not withstand these types of stresses due to high wear and contact area. An analysis is done on Footstep power generator project where gear driver is used, analysis is done in Ansys software.
Torque is applied to one of the spur gears and by frictionless support.01 ANSYS WORKBENCH 16.0 Explained
Other gear was supported by a fixed. A very fine mesh is used for the simulation. It is concluding, Mild Steel gives a factory of safety FoS 2.
Toggle navigation. Pneumatic Vibratory Screw Feeder Bowl. Search Search for:. Ltd grows exponentially through its research in technology.Design and analysis of pneumatic trolley for industrial applications. FEA analysis of aluminium - copper based connecting rod. FEA analysis of cam shaft using composite material.
Design and analysis of scissor jack for automotive. Design and analysis of composite gear wheel. Design, modeling and analysis of a 3 stage epicyclic planetary reduction gear for aircraft applications.
Finite element analysis of normal and vented disc. Design and analysis of composite over bridge coupling. Analysis of helical coil compression spring for threeWheeler automotive front suspension.
Finite element analysis and optimization of piston for automotive vehicle. FEA analysis of frame for bicycle. Finite element analysis of bus body structure with composite materials. Analysis of heat exchanger with nano fluid to increasing efficiency. FEA and thermal analysis of cylinder head gasket. Steady-state thermal stress analysis of gearbox casing by finite element method. Structural and thermal analysis of steam turbine. Design and analysis of coil spring with different materials for automotive applications.
Modelling and analysis of a wheel rim for motorcycle. Design and analysis of jet wind turbine blades. Impact analysis on automobile front sub frame system using composite material. Modelling and structural analysis of rear axle casing of tractor. Structural analysis of an exhaust manifold of a multi cylinder engine. Analysis of a thin and thick walled pressure vessel for different materials. Study and analysis of aircraft fuselage body stucture by using composite material.
Design and analysis of machine tool spindle. Design and analysis of rocker arm. Design and analysis of thermal distribution in fins of compressor. Design and analysis of chassis structures with loading condition. Design and analysis of domestic windmill blades. Stress analysis on gear wheel transmission. Performance analysis and implementation of disc brake in heavy vehicle. Design and analysis of a wind turbine with thin.
Design and modal analysis of composite drive shaft for automotive application. Thermal and structural analysis of vented and normal disc brake rotors. Thermal analysis of steam turbine. Numerical simulation of shell-and heat exchanger header for uniform distribution among tubes. Micro wind turbines technology. Design and analysis of fins with various configuration. Heat transfer enhancement techniques.
Study of steam condensation in the mini channel heat exchanger.Learn more about SimuTrain or get started today by purchasing your subscription. Have you ever wanted to rearrange the systems on the Project page? You can move linked and un-linked systems by selecting on Header Cell which is the one that says Static Structural, Modal, etc. After the Header Cell is selected, simply drag and drop to the new location.
Consider the following linked analysis systems:. The first analysis system of a set of linked analysis systems cannot be deleted if it is in the first position. Rearranging the order allows deletion of the first analysis system.
A multiple step analysis can be defined in Workbench Mechanical using Analysis Settings. There are no default settings for the time steps. For a multiple step analysis, changing step controls on each individual step can be tedious. Multiple steps can be selected and changed simultaneously using the Graph window under Analysis Settings. Below, step 2 is selected by clicking on the bar under the graph. Steps 2, 3, and 4 are selected below. Get SimuTrain Now!
Materials Semiconductors Optical Systems. Local Seminars Webinars. Stay connected: Newsletter.Finally the analysis was made on that product. The compulsory parameter in the analysis part is the application of load. Depending upon the application of load only,the stresses develops inside the material and theses stresses Vonmises stress should be less than the Yield point of the material.
Then only the material is safe else it is of a failure case. For any doubts or clarifications regarding your project, you can Comment below or Join our Groups, so that not only you, others get benefitted with your Interaction from the comments section as well as from the below groups.
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