Latest Projects Based on Analysis

Retard-bonded prestressed concrete has been in use for twenty years and is a new and distinctive prestressed system. Mechanical and service property

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.

The development of many technologies that make our existence so comfortable has been intimately associated with the accessibility of suitable materials. In fact, early civilizations have been designated by the level of their materials development (Stone Age, Bronze Age, Iron Age). Thus, tens of thousands of different materials have evolved with rather specialized characteristics of materials. Many of our modern technologies require materials with unusual combinations of properties that cannot be met by the conventional metal alloys, Ceramics & Polymeric materials. In this project, you will get to know about a Functionally Graded Composite material which kind of solve the above problems. You will analyze this material using the Finite Element Method by modelling it using MATLAB.

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.

Urban population has seen a rapid growth in the past decade and the consequent pressure on limited space have consequently influenced the residential development in the city.

Solar energy is a very important source of energy and has a very high potential. The main problems connected to its utilization are its low intensity and availability. Utilization of solar energy in the building sector is needed for the purpose of either heating or cooling.

For any foundation work it is very much necessary to study the mechanical parameter of soil before the concreting starts. To study the parameters on the deep foundation works,

Fiber-reinforced polymer composite is the preferred material for the construction of aircraft and spacecraft. Even used as structural materials for the development of fuselage and due to its applications in the various field, it is used as a primary source for designing aircraft.

Aircraft safety is improving by analyzing the defects in the fuselage and catastrophic failure investigations on aircraft structural components. The primary cause of failure identification and the analysis enable recommendations for corrective action.

In today’s world, the search for new materials with innovative mechanical properties and sustainability is important. In spite of many advantages, natural fibers have some disadvantages like low thermal resistance, high moisture absorption, etc.

The landing gear is a structure, which supports the aircraft in the ground. A major part of aircrafts load is transferred to the landing gear during take-off and landing. These loads are then transferred to the airframe through landing gear beams. Wheels of the landing gear are added as per the size of the aircraft. The position of the landing gear depends on the design, type, and load of the aircraft. Some landing gear is mounted on wing and some under the fuselage.

In this project, we are going to create and analyze a 2D and 3D model of lug attachments in the landing gear.

A variable-sweep wing is a type of wing configuration, that changes the sweep angle of the wing during flight. This is a concept of hybrid wings used for a sudden increase in velocity and aerobatic purpose.

An ornithopter is a type of aircraft that flies by flapping its wings. Designers try to mimic the flight of birds, bats, and insects.

In this project, we are going to design and develop a scaled 3D model of ornithopter resembling an eagle. Then, kinematic data is obtained from the 3D model of ornithopter and fabricated to the required dimensions.

Due to the current development in the field of the construction industry, it led us to construct high rise buildings.

Usually, in traditional practice, all the columns are projected downwards. Thus, there is no extra space for usage in the buildings. Because of this, some developments like parking facilities and play area is not available in the buildings.

Now AVIATION is in a period of sustained growth, and that growth is likely to continue. Every year, millions of consumers use airlines to travel around the world. Despite the huge progress in air safety, accidents and incidents do happen and cause injuries and the destruction of property.

Many sports involve kicking, smashing, hitting or throwing a ball. However, all playing balls are affected by air or any fluid dynamically. In this study, we compared the aerodynamic coefficients in wind tunnel experiment of fully rotating and non-rotating soccer balls and to clarify their aerodynamic properties titanium chloride visualization method is used to find vortex dynamics of soccer balls in flight

The hovercraft design for minor, average, and huge load or military vehicles allows traveling from very slow to average to high speeds over water or land. A vehicle of this design is 150% more effective than current aircraft, 20 times faster than load carrying ships, and capable of going to other landmasses. The project can be adapted to a gathering of fast, military, over-water vehicles of any size capable of portable over any landscape.

A nozzle is a relatively simple device, just a specially shaped tube through which hot gases flow. The purpose of the nozzle, in subsonic flow, is to constrict the airflow, thus critically increasing the thrust as it leaves the engine.

A nozzle is a relatively simple device, just a specially shaped tube through which hot gases flow. The purpose of the nozzle, in subsonic flow, is to constrict the airflow, thus critically increasing the thrust as it leaves the engine.

An airfoil-shaped body moving through a fluid produces an aerodynamic force. Some important constraints to describe an airfoil's shape are its camber and its thickness. For example, an airfoil of the NACA 4-digit series such as the NACA 2415 describes an airfoil with a camber of 0.02 chord located at 0.40 chord, with 0.15 chord of maximum thickness.

ICEM is a software developed by ICEM CFD engineering which provides classy geometry tools for mesh generation, pre-processing and mesh optimization tools. It is used for manufacturing applications such as computational fluid dynamics and mechanical analysis.

A propeller is a distinct type of fan that translates rotational motion into thrust by producing a pressure difference in the nearby fluid. Typical fans and propellers have the same physics, yet a fan is generally still, while a propeller causes the object to be in motion. Propeller is a main component in several industrial designs regarding rotating machinery.

An airfoil-shaped body moving through a fluid produces an aerodynamic force. Some important constraints to describe an airfoil's shape are its camber and its thickness.

ICEM is a software developed by ICEM CFD engineering which provides classy geometry tools for mesh generation, pre-processing and mesh optimization tools. It is used for manufacturing applications such as computational fluid dynamics and mechanical analysis.

An airfoil-shaped body moving through a fluid produces an aerodynamic force Some important constraints to describe an airfoil's shapes are its camber and its thickness.

A nozzle is a relatively simple device, just a specially shaped tube through which hot gases flow. The purpose of the nozzle, in subsonic flow, is to constrict the airflow, thus critically increasing the thrust as it leaves the engine.

Beams are descriptions of the building or civil engineering structural elements, but any structures such as motorized automobile frames, plane mechanisms, engine settings, and other or structural systems contain beam constructions that are intended to carry adjacent loads are analyzed

MNSIT simply stands for Modified National Institute of Standards and Technology dataset. The application is based on machine learning of the huge data set available, and it helps to recognize a particular digit into a class of 10. The application is widely used in visual training and digit recognition. The application also uses many algorithms and classifiers.

ADAMS is a multi-body dynamics simulation software used by industries to test their product before manufacturing it. In this tutorial, we will discuss how to perform a simulation of Pick and Place robot in MSC ADAMS.

Robots created a revolution in the industry field by automating the manufacturing process and making the output fast. Pick and Place robot is one such robot which is used in industries like automobile, aerospace, embedded system, etc. to speed up the manufacturing process in the assembly line.

The Pick and Place robot have to withstand various loads on its joints and components while functioning. After manufacturing then testing the components will increase the production cost. So with the help of ADAMS multibody simulation software, we are going to simulate the model to find the loads acting on its joints.

ADAMS is a simulation software widely used by OEMs to test their product by performing various multi-body dynamic simulation to identify the errors and defects. This helps the manufactures to reduce the cost of production. In this tutorial, we will perform a simulation for IC Engine valve mechanism using MSC ADAMS software.

IC engine or Internal combustion engines are the prime movers of the automobile. It converts the heat into work thus the IC engine is also called heat engine. In order to increase the efficiency of the engine, the inlet and exhaust valves should open and close properly. Due to the rapid combustion process, the force exerted over the valve will be more. The actual force exerted over the valve will be difficult to calculate so ADAMS software is used to detect the force exerted on the valves.

INTRODUCTION

A heat pipe is a latent gadget with an upper heat conductance. It is a closed emptied tube or office of varied shapes. Its internal surfaces are stock-still with a fine wick. Heat pipes are now used in a wide group of heat move-related applications. In this work, a two- dimensional limited part number- based model is created for the reproduction of heat channels to their resulting state where execution attributes. The limited- component models are developed in ANSYS programming to predict the temperature with the heat pipe. Some cases are discussed with various types of heat pipe divider materials, powerful warm of the wick, no-go heat transpiration at the evaporator, and working liquids. In all the cases, heat pipes are shown as areas, especially, evaporator, adiabatic and condenser areas. Reasonable material and heat conductivity would help for the heat pipe divider. Chosen heat transition at the evaporator section. At the condenser segment, the convective heat moves and is applied. In the adiabatic section, if no there is no condition, ANSYS treats the surface as adiabatic. At the point when all these conditions recreate the model, ANSYS programming produces good results.

Ansys stands for Analysis System. Ansys is called an ‘Analysis system’ just because in Ansys workbench all kinds of analysis systems are combined on one platform. In Ansys, to study about the fluids there is another in-built software known as CFD (Computational Fluid Dynamics) which helps us optimize our designs and can easily get us the results which we aim at. Ansys CFD goes beyond qualitative results to deliver accurate quantitative predictions of fluid interactions and trade-offs.

In Ansys, there are mainly 5 sections through which we can create or design a particular item, they are:

Latest Projects based on analysis