PROJECT-2
sriram srikanth
updated on 30 Jul 2022
Project Details
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Read more Projects by sriram srikanth (56)
Week - 12 - Creating the locator, writing and reading the node data
CHALLENGE-12
30 Jul 2022 07:44 AM IST
Project 1- Building a Master TCL/TK Macro
PROJECT-1
30 Jul 2022 07:42 AM IST
Project - 2 - Generating the report for hypermesh file
PROJECT-2
30 Jul 2022 07:41 AM IST
Week - 11 - Element quality check
AIM: To check the element quality. OBJECTIVE: Create element quality check macro for 2D and 3D elements. Create a button for each criterion. On pressing the button the elements should be highlighted using temp nodes. Entry boxes next to the buttons will accept the quality criteria value. PROCEDURE:…
16 Feb 2022 11:29 AM IST
Week - 10 - Creating the midline and spot weld
AIM: To create midline and spot weld. OBJECTIVE: Create a macro to calculate the midline of a given tubular component. Select one end of the lines using line by path. Similarly, select the other ends using line by path option. Now calculate midline for each pair. Combine all these midlines to…
11 Feb 2022 01:03 PM IST
Week - 9 - Reflecting the geometry
AIM: To reflect the geometry. OBJECTIVE: Create a macro that will reflect the given multicomponent FE part with ease. It should be independent of the deck. The only inputs allowed are, original CAD comp, reflected CAD comp, and original FE comps. The name of the component should also be taken as input…
06 Feb 2022 04:46 PM IST
Week - 8 - Creating component and property
AIM: Create the component and property. OBJECTIVE: Ask the user to enter name of a component and its thickness. Write a code that will automatically create components and assign thickness to it. The code should decide on its own what type of collector should be created depending on the user profile/deck.…
20 Jan 2022 10:27 AM IST
Week - 7 - Checking and correcting the edges
AIM: To check and correcting the edges. OBJECTIVE: Create a code that displayed free and T edges for displayed elements. Free edge color red and T edge cyan. Except for edges, all other components must be made transparent. Also, temp nodes must be automatically created for “free nodes”…
17 Jan 2022 04:57 PM IST
Week - 6 - Creating the GUI for final checks
AIM: To create a tk GUI for all the final checks/operations. OBJECTIVE: Create buttons to delete displayed geometric entities (be careful about advanced remesh) Create buttons to delete empty entities. Create button to re-order and re-number entities by name. Create a master button in red…
07 Jan 2022 08:08 AM IST
Week - 5 - Checking and correcting the Normals
AIM: Write a code to display normal as explained in Lecture 5 Create a widget containing two buttons for “reverse normals” and “normal off” Also assign these procedures to keyboard buttons of your choice. check the null case also OBJECTIVE: To write a code to display normals of the elements and two buttons to reverse the…
05 Jan 2022 08:31 AM IST
Meshing on the suspension Assembly
AIM: Meshing and implementing connections to the car rear suspension model. ABSTRACT: In this project, I have taken a half section of a car rear suspension system where the meshing will be done on different components with 3D, 2D & 1D…
30 Nov 2021 10:25 AM IST
Bird Strike
AIM: To simulate a non-linear transient dynamic problem of a Bird Strike with a Jet Engine Blade and evaluate the results. OBJECTIVES: The given file contains all the 4 parts which as to separate and save part wise. The suitable material is to be created and saved in a subfolder. The node number,…
30 Nov 2021 10:15 AM IST
week-11 Joint creation and Demonstration
AIM: To demonstrate spherical, revolute, cylindrical, and translational joints between two rigid bodies and two deformable bodies. OBJECTIVE: Demonstrate all the types of joints like spherical, revolute, cylindrical & translational joints. …
28 Oct 2021 10:24 AM IST
Week - 10 Hyperelastic Material Models
Aim: To calculate the Mooney Rivlin and Ogden material constants and compare both using stress-strain data from a Dogbone specimen tensile test with 100 percent strain. The given material data is the engineering stress-strain in MPa/(mm/mm). The comparison should be shown from…
25 Oct 2021 06:43 AM IST
Week - 9 Material Modeling from Raw Data
AIM : Using the diagram of the true stress-strain curve given for graphite iron casting, creating a material model for the Dogbone specimen. Validating the material model by performing a tensile test on a Dogbone specimen. OBJECTIVE : By Using the diagram of the true…
20 Oct 2021 10:24 AM IST
Week - 8 Mass Scaling
AIM: To perform the simulation in order to reduce the run time with the help of mass scaling in LS-Dyna. OBJECTIVE: To learn about the mass scaling Technique to reduce the computational time for the analysis. The limit for the mass scaling is restricted to 8% and simulation has to be completely…
18 Oct 2021 03:39 AM IST
Week-7 Head Impact
AIM: To perform the head impact simulation & calculate the head impact criterion value for the following cases. OBJECTVIE: To perform head impact analysis & calculate the HIC(head Injury Criteria/Coefficient) value for the following cases. CASE-1) Simple head & rigid wall CASE-2) Child head foam…
07 Oct 2021 07:11 AM IST
Week-6 Calculate the Stretch Ratio by comparing the ELFORM (-2,-1,1,2) with Ogden_Material Model.
AIM: To perform the simulation by calculating the strach ratio & comparing with ELFORM(-2,2,-1,1) with Ogden material model. OBJECTIVE: Create a block of 10mmx10mmx10mm dimension with 10 elements for each direction and use the material card attached (Ogden_Material.k) that is representative…
04 Oct 2021 05:23 AM IST
Week - 5 - Modelling Spotwelds
AIM: To create a simulation file using input parameters to perform a Crash box simulation by using spotweld beam, solid spotweld & plot the results. OBJECTIVE: For the particular simulation, the required input paramters are; Title card, section, material card, part, initial velocity, spotweld(beam…
29 Sep 2021 11:58 AM IST
Week - 4 - Crash Box Simulation
AIM: To simulate the crash box (1.2 & 1.5mm thickness)onto a rigid wall at 50kmph & obatain the following output. OBJECTIVES: Input .k file and output files (d3plot, glstat, sleout, rcforc) Animation of the final simulation Cross-sectional force generated in the middle of the crashbox (along its length) Acceleration…
24 Sep 2021 10:59 AM IST
2D meshing for Plastic components
AIM: To extract the midsurface & mesh the component with given quality parameters & assign the thickness on a plastic bottle cap component. DESCRIPTION: S.No Quality Criteria Value 1 Target/Average length 1 2 Minimum Length 0.5…
22 Sep 2021 11:10 AM IST
Week - 3 Drop test Challenge
Aim: To perform a drop test for a mobile phone onto steel platform. DESCRIPTION: The test consists of dropping a device on its back, corner, and front from 1 meter. If a device survives the first three drops,…
22 Sep 2021 06:10 AM IST
Week - 2 - Explicit and Implicit Analysis
AIM : To solve the below Force-Displacement non-linear response of a material using both explicit and implicit methods and to compare the results to find out which method gives better approximate results. The Force-Displacement relation is given below : …
14 Sep 2021 09:31 AM IST
2D meshing for sheet metal
AIM: To extract the midsurface & mesh the component with given quality parameters & assign the thickness on a hood component. DESCRIPTION: Hood model consisits of five parts: Hatch Left…
13 Sep 2021 08:25 AM IST
Solid meshing
AIM: In this challenge, we are going to mesh the car rear mirror with the help of solid tetra meshing. we are going to assign volumetric meshing to the solid geometry. DESCRIPTION: S.No Quality Criteria Value 1 Target/Average length 1 2 Minimum Length 0.5 3…
13 Sep 2021 08:22 AM IST
Creating connection for Rear door
AIM: To implement connections for a Rear Door FE model. DESCRIPTION: Understand car rear door assembly Understand different types of connections and 1D elements. Perform connections for a FE model. PROCEDURE: Methodology for…
13 Sep 2021 08:21 AM IST
Morphing
AIM: To practice all the Morphing techniques that were shown in the video for the given component METHODOLOGY: Import model and do Geometry clean up Open Morphing module Apply the changes with different options available INTRODUCTION: Morphing Morphing in ANSA is a very powerful and intuitive tool, it…
13 Sep 2021 08:21 AM IST
Consistency of Units
AIM: Convert the given measurements into different system of units & finding their corresponding conversion factors. Value of the following measurements are given as follows: MASS -1kgLENGTH-1mTIME-1sFORCE-1NSTRESS-1PaENERGY-1NmDENSITY-1Kg/m3YOUNG'S Modulus -210GPaVelocity-56.33KMPHGRAVITY-9.8m/s2…
13 Sep 2021 08:20 AM IST
2D meshing on the instrumental Panel
AIM: For the given component 2D meshing on the instrumental pannel check for the geometrical errors and mesh with the given element Quality criteria. After meshing the component the thickness has to be assigned. OBJECTIVE: Introduction to shell meshing i.e. 2D meshing Geometry check…
13 Sep 2021 08:10 AM IST
Tool Test-2
Time duration - 9 hrs
15 Jul 2021 11:12 AM IST
Tool Test 1
Time duration Model-1 : 8 hrs Model-2 : 6 hrs
09 Jul 2021 01:41 AM IST
Roof Crash Simulation
AIM: 1) To perform the roof crash analysis on Neon Dodge BIW set-up the model by following parameters. i) Import both NEON-BIW model & FMVSS 216 Impactor in Radioss 2) By following the transforms…
08 Jun 2021 03:54 AM IST
Side Pole Crash Simulation
AIM: 1) To perform side pole crash for BIW model using radioss for the given parameters. Check unit system and either follow [Mg mm s] or [Kg mm ms]. Create appropriate interface ,friction 0.2 and recommended parameters. Make sure of no penetration and intersections. Create rigid…
08 Jun 2021 03:49 AM IST
Frontal Crash Simulation
AIM: i) To perform frontal crash for neon car BIW model by initially setting up with the following parameters: Check unit system and either follow[Mg mm s] or [Kg mm ms]. Create appropriate interface ,friction 0.2 and recommended parameters. Make sure of no penetrations and intersection.…
08 Jun 2021 03:31 AM IST
Meshing an Automobile Rear Door Model
AIM: To mesh the component (rear wheel holder) with the given quality criteria. QUALITY CRITERIA: Target Element Length = 5 Units S.N Quality Criteria Value 1 Aspect Ratio 5 2 Skewness 45 3 Warping 15 4 Taper 0.5 5 Min. Length 2 Units 6 Max. Length 8 Units…
08 Jun 2021 03:23 AM IST
Meshing an Automobile Side Door Interior Plastic Component
AIM: To mesh the given component(side door of a passenger vehicle) & assign thickness by following the given quality criteria. QUALITY CRITERIA: Target Element Length = 4 Units S.N Quality Criteria Value 1 Aspect Ratio 5 2 Skewness 45 3 Warping 15 4 Taper 0.5…
08 Jun 2021 03:22 AM IST
Week 9-Creation of 1D Connectors Challenge
AIM: To create 1D connectors in the given component in hypermesh by achieiving following quality criteria. S.N Quality Criteria Value 1 Aspect Ratio 5 2 Skewness 45 3 Warping 15 4 Taper 0.5 5 Min. Length 2 Units 6 Max. Length 8 Units 7 Min angle…
17 Apr 2021 07:31 AM IST
Week 8-3D Tetra Meshing Challenge
AIM: 1) Create a Teramesh for Housing component with the following quality criteria. 2) For the given model, Create a 3D Tetramesh with the following quality criteria. 3) For the given assembly model, Create a 3D Tetramesh with the following quality criteria.OBJECTIVE: Model - 1: 2d to 3d…
13 Apr 2021 08:59 AM IST
Week 6-Meshing of Hood Challenge
AIM: 1) Check the geometry for the given model. 2) Extract all the mid-surfaces of the given component. 3) Mesh the component by following the mentioned quality criteria & asssign the thickness. Target Element Length = 5 Units S.N Quality Criteria …
18 Mar 2021 02:04 PM IST
Week 4-1D Element Creation Challenge
AIM: Take a mid surface & mesh the given component & create 1d element on the following component with given cross-section and DOF a. Rod element:- Translational DOF should be Constrained with RBE2 link Cross-Section: Box - Dimension a= 12 mm…
04 Mar 2021 05:56 AM IST
Assignment 5
AIM: Run the crash tube model as it is. Change the Inacti=6 and run. Create the type 11 contact and run. Remove both notches and remove boundary condition on rigid body node then run. Create a new notch in the middle ,select the whole section and run. Create a new notch with nodes only from opposing 2 faces and run. Plot…
29 Jan 2021 06:44 AM IST
Assignment 4
AIM: 1. Total number of cycles, Energy error, mass error and simulation time. 2. Notice the animation of all 5 and describe the animations in brief on the basis of whether the elements are being deleted or cracked. 3. Plot energies…
21 Jan 2021 12:24 PM IST
EV Drivetrain
AIM: 1) Find the types of power converter circuits which are employed in electric and hybrid electric vehicle. 2) An Electric Vehicle's powertrain with 72V battery pack & duty ratio for acceleration operation is 'd1' & for the braking…
20 Jan 2021 05:50 AM IST
Challenge WOT Condition Part-2
AIM: 1) Find the difference between the mapped and dynamic model of engine, motor and generator. How can you change the model type? 2) Calculate miles per gallon for the model and the factors to be considered for the model fuel flow. 3) Run…
20 Jan 2021 05:50 AM IST
Powertrain for aircraft in runways
AIM: 1) Search and list out the total weight of various types of aircrafts. 2) Is there any difference between ground speed and air speed? 3) Why is it not recommended to use aircraft engine power to move it on the ground…
20 Jan 2021 05:49 AM IST
Assignment 2
AIM: 1) Check the material properties of the rail component and calculate the speed of sound in steel rail. 2) The length of the rail is about 1000 mm.calculate the time takes for a shock wave to travel from one end of the rail to the other. …
08 Jan 2021 07:31 AM IST
Assignment 1
AIM: Carry out the geometry cleanup operation on the given 3 files. Practice Clip Repair Mounting Bracket OBJECTIVES: There should not be any free edges, convert all of them into refine geometry. Clean the geometry.…
04 Jan 2021 07:58 AM IST
ADVISOR TOOL
AIM: 1) For EV_defaults_in file, if cargo mass is 500 kg with all other default conditions, can the vehicle travel for 45 km with FTP drive cycle. 2) From the above case, try to change the battery capacity and repeat the cycle. 3) Perform…
30 Nov 2020 06:36 AM IST
Parsing NASA thermodynamic data
AIM: To parse the thermodynamic data ansd calculate the thermodynamic properties of various gas species using MATLAB DESCRIPTION: PARSING: Parsing, syntax analysis, or syntactic analysis is the process of analyzing a string of symbols, either in natural…
19 Nov 2020 11:17 AM IST
IMPLEMENT CONTROL LOGIC OF A WASHING MACHINE USING STATE FLOW
AIM: Implement control logic of a “washing machine” using Stateflow as per given sequence: If the power supply is available, the system gets activated. If the Water supply is not available, stop the process & indicate through LED Soaking time should be 200s followed by Washing…
19 Nov 2020 11:17 AM IST
Simulink model of using doorbell using solenoid block and by using thermistor to sense the temperature of a heater (turn on or turn off) the fan
AIM: To make a simulink model of using doorbell using solenoid block and by using thermistor to sense the temperature of a heater (turn on or turn off) the fan. OBJECTIVE: 1) Create a situation where the switch is…
10 Nov 2020 07:29 AM IST
Optimizing the stalagmite function and find the global maxima of the function
Aim: By using Matlab write a code to optimise the stalagmite function and find the global maxima for the function. Description: Genetic Algorithm is a process of natural selection that belongs to the larger class of evolutionary…
07 Mar 2020 05:23 AM IST
Simulate the transient behaviour of a simple pendulum and to create an animation of it's motion
Aim: Write a program to simulate the transient behaviour of a simple pendulum and to create an animation of it's motion. Description: Simple Pendulum - A pendulum is a weight suspended from a pivot, so that it can swing freely. When a pendulum is displaced sideways from its resting,…
23 Feb 2020 06:17 AM IST
A program to calculate the drag force on a bicycle
Description: Calculate the drag force on a bicycle using MATLAB and PLOT using DragForce vs Velocity. Formula for Drag Force: Fd=1/2*P*A*V.^2*cd where: Fd-Newton(N) - kg/m-s.^2 Density - kg/m.^3 Velocity (V) - m.^2 Constant - m.^2/s.^2 Program: Case-1:…
16 Feb 2020 02:09 AM IST