 Suchith Bengaluru Suresh

Mechanical Engineer Post Graduation in Hybrid Electric Vehicle Design. ### Experience

Steel Detailer

SANRIA Engineering And Consulting Pvt Ltd

03 Apr 2018 - 18 Jan 2020 ### Domains

Software Skills

Hypermesh

MATLAB

Area of Expertise

Plastic design ### College Information

B.E

ATME College of Engineering

01 Jun 2013 - 01 Feb 2018 ### School Information

12th

Vidhyaashram College

01 May 2012 - 01 Apr 2013

10th

Pushkarani School Vijaynagar

01 Jun 2010 - 01 Apr 2011 ### Projects

PARSING OF NASA'S THERMODYNAMIC DATA USING MATLAB

AIM:  To parse the NASA thermodynamic data file and then calculate thermodynamic properties of various gas species.   OBJECTIVE: 1. To Calculate the molecular weight of each species. 2. To Plot the Cp, Enthalpy and Entropy for the local temperature range specific for each species. 3. To Save the…

WIDE OPEN THROTTLE

1.   What is the ratio of hill climbing power required by fully loaded tata ultra truck to the half loaded one?   SPECIFICATIONS FOR TATA ULTRA TRUCK 1518:   HILL CLIMBING FORCE OF FULLY LOADED TATA TRUCK 1518: Curb weight (or) Front axil weight = 5510kg Pay load (or) Rear axil weight = 10200kg Gross…

REPRESENTING A GIVEN FUNCTION USING SIMULINK AND TO UNDERSTAND PRE-BULT MATLAB SIMULATION BLOCK OF SUSPENSION SYSTEM COMPARISION.

AIM : To plot the given function using "SIMULINK" and to understand the pre build matlab simulation block of "SUSPENSION SYSTEM COMPARISION". OBJECTIVE : 1. To plot this function  yx=(x-1)*(x-3)^2*(x-9)^2 using basic Simulink blocks.  2. To determine the similarities and differences between the three…

CURVE FITTING FOR LINEAR AND CUBIC POLYNOMIAL FOR GIVEN DATA USING MATLAB

AIM: To execute a program to curve fit for both linear and cubic polynomial for the given cp data using MATLAB. OBJECTIVE:  1. To Write code to fit a linear and cubic polynomial for the Cp data. 2. To Plot the linear and cubic fit curves along with the raw data points.  3.  To explain the parameters…

TO CREATE MODEL OF DOOR BELL USING SOLENOID AND TO CREATE MODEL OF THERMISTOR TO SENSE THE TEMPERATURE OF A HEATER ACCORDING TO THE GIVEN PARAMETERS

Q1). Make a Simulink model of Doorbell using solenoid block. AIM:  To create a simulink model of the doorbell according to the given conditions. THEORY: The doorbell is created using inbulit blocks in simulink such as solenoid and plunger block. solenoid is connected to a poer source of DC voltage supply, here…

SIMULATION OF A FOWARD KINEMATICS OF A ROBOTIC ARM

FOWARD KINEMATICS OF A 2R ROBOTIC ARM AIM: Smulation on foward kinematics of a 2R robotic arm and To determine the workspace of a foward kinematic 2R robotic arm using MATLAB. OBJECTIVE: To execute a Program for solving the forward kinematics of a 2R robotic arm manipulator           THEORY:…

SIMULATION OF A SIMPLE PENDULUM BY SOLVING 2ND ORDER DIFFERENTIAL EQUATION USING MATLAB

AIM: To simulate the transient behaviour of a simple pendulum and to animate the oscillation using MATLAB. OBJECTIVE:  1. To execute the program using 2nd order differential equation for calculating displacement and velocity with respect to time in MATLAB. 2. To animate the oscillation of a simple pendulum 3.…

TO FIND GLOBAL MAXIMA USING GENETIC ALGORITHM

AIM: To determine "GLOBAL MAXIMA" of a "STALAGMITE FUNCTION" using "GENETIC ALGORITHM" in MATLAB OBJECTIVE:  1. To determine global maxima by optimizing stalgamite function using genetic algorithm. 2. To understand "GENETIC ALGORITHM" THEORY: A Genetic algorithm is inspired by Charles Darwin’s theory of…

CALCULATION OF THERMAL EFFICIENCY AND PLOTTING PRESSURE V/S VOLUME OF OTTO CYCLE USING MATLAB

AIM: To determine the thermal efficiency and to plot pressure v/s volume of an Otto cycle. OBJECTIVE: To execute program for simulating an air standard cycle or Otto cycle using MATLAB. THEORY: The Otto cycle is a cycle of engine operation which requires four strokes of the piston for induction,…

CALCULATING DRAG FORCE OF A MOVING OBJECT USING MATLAB

CALCULATING DRAG FORCE FOR FLOW OVER BICYCLE AIM: To calculate drag force. OBJECTIVE:  1. To execute a program for plotting velocity v/s dragforce. 2. To execute a program to plotting co-efficient of drag v/s dragforce. FORMULE: `Fd = 1/2 .rho.A.V^2.Cd` Where, Fd = Drag force, (N) A = Frontal area of the moving object,…

Assignment 1

AIM:  To carry out Geometry clean up, Extract mid surface and to do 2D meshing on mid surface of the following given Components: 1) Practice component. 2) Clip repair component. 3) Mounting Bracket.   OBJECTIVE: To, 1) Clean the geometry. 2) Extract midsurface. 3) Clean midsurface geometry. 4) Ignore holes less than dia…

Assignment 2

Q1. When we open the "Starter file : FIRST_RUN_0000", we can get to see  properties of a material as shown below,               Young's Modulus of Steel : 210000 g/mm-ms^2 Density of Steel : 0.0078 g/mm^3 We know that "Speed Of Sound" = `sqrt(E/rho)` = `sqrt(210000/0.0078)` = 5188.74 mm/ms So the speed of sound is 5188.74…

Assignment 3

AIM:  1) To run the simulations on the given "Crash Beam" file with "Run Time" as "55 milli seconds" and "Number Of Animation Steps" as "50". 2) This Simulation should be first done by "Without modifying any Element properties" and the second simulation by "Changing all the element properties which are provided".   OBJECTIVE:…

Assignment 4

AIM: To run the simulations for 7 different cases for "RUPTURE PLATE", provided with appropriate given data.     OBJECTIVE: Compare all the 7 different cases according to:  Total number of cycles, Energy error, mass error and simulation time. Notice the animation of all 7 and describe the animations in brief…

Assignment 5

AIM: To do "MESHING" on the given "BUMPER ASSEMBLY" with mesh size of "6mm" and To run the given "CRASH TUBE MODEL" according to the given data through 6 different cases.   OBJECTIVE: Create the mesh for bumper assembly,mesh size should be 6mm.  Run the crash tube model as it is. Change the Inacti=6 and run.…

Assignment 6

AIM: To do "FRONTAL CRASH ANALYSIS" for the given "BIW" car model using "HYPERMESH AND HYPERCRASH".   OBJECTIVE: FRONTAL CRASH BIW: To Check unit system and either follow[Mg mm s] or [Kg mm ms]. To Create appropriate interface ,friction 0.2 and recommended parameters. To Make sure of no penetrations and intersection. To…

Assignment 7

AIM: To do "SIDE CRASH ANALYSIS" for the given "Neon side crash -BIW" car model using "HYPERMESH AND HYPERCRASH".   OBJECTIVE: Neon side crash -BIW To Check unit system and either follow [Mg mm s] or [Kg mm ms]. To Create appropriate interface ,friction 0.2 and recommended parameters. To Make sure of no penetration and…

Week 8-3D Tetra Meshing Challenge

AIM:    To do "Tetramesh" on the above given 3 components using given appropriate criteria    OBJECTIVE: 1. To Create a Teramesh for Housing component with the following quality criteria. Elements sizes: Min- 2 Units, Target- 5 Units, Max- 7 Units  Tet collapse: 0.15 2. For the given model 2, To Create a 3D Tetramesh with…

Week 9-Creation of 1D Connectors Challenge

AIM:    To Mesh the given component with the given "Element quality criteria" and to connect all the different components with appropriate "1D connectors" according to the above-specified places and specified connectors.    OBJECTIVE:   Target Element size - 5 Units S.N Quality Criteria  Value …

Week 12:Project-1-Meshing of Door Inner Panel Challenge

AIM:   To Mesh the given "DOOR INNER PANEL MODEL" by satisfying the given quality criteria and with a target element size of "4mm".   OBJECTIVE: To Follow the mentioned quality criteria, mesh the component given with a target element size of "4mm" and assign thickness:   PROCEDURE:   STEP-1: EXTRACTING MID SURFACE FOR…

Week 12:Project 2-Meshing of Rear Wheel Holder challenge

AIM:   To Mesh the given "REAR WHEEL HOLDER MODEL" by satisfying the given quality criteria and with a target element size of "5mm".   OBJECTIVE: To Follow the mentioned quality criteria, mesh the component given with a target element size of "5mm" and assign thickness:   PROCEDURE:   STEP-1: EXTRACTING MID SURFACE FOR…

Week 4-1D Element Creation Challenge

AIM: To Mesh the Given component with the Size of 5 Units. Create 1D elements 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                  …

Week 6-Meshing of Hood Challenge

AIM:  To Mesh the given "HOOD MODEL" by satisfying the given quality criteria and with a target element size of "5mm".   OBJECTIVE: To Follow the mentioned quality criteria, mesh the component given with a target element size of "5mm" and assign thickness:   PROCEDURE:   STEP-1: EXTRACTING MID SURFACE FOR THE GIVEN COMPONENTS:… ### Course Certificates

Crashworthiness Analysis using HyperMesh and Radioss

Completion Certificate UID : t1p9x2f8mlrze5c3

Introduction to Physical Modeling using Simscape

Completion Certificate UID : 27lzitmd8knxcuje

MATLAB for Mechanical Engineers

Completion Certificate UID : s1v5npik97c4xlg3

HyperMesh for FEA Plastic and Sheet Metal Applications

Completion Certificate UID : zpdmeaw36597icyr