I DESIGN for Passion – Mechanical Engineering
Welcome to our website, where we specialize in providing cutting-edge solutions in the fields of mechanical engineering, programming, Finite Element Method (FEM), and optimization. Since 2012, our team of skilled engineers has been dedicated to simulating, optimizing, and calculating components across a wide range of industries, including automotive, civil, marine, plant construction, and research and development.
At our core, we are problem solvers who use state-of-the-art tools and techniques to tackle even the most complex engineering challenges. Whether it’s improving the performance of an existing product or designing a completely new one from scratch, we approach each project with a commitment to excellence and a passion for innovation.
Our expertise in FEM allows us to simulate real-world conditions and accurately predict how components will perform under different loads and stresses. This enables us to optimize designs for maximum efficiency, durability, and safety, while minimizing costs and material waste. Our programming skills and experience with optimization algorithms further enhance our ability to create custom solutions that meet our clients’ unique needs and exceed their expectations.
We are proud to have built a reputation as a trusted partner for businesses and organizations of all sizes, and we look forward to working with you to turn your engineering ideas into reality.
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Recent Projects
FEM Analysis and mechanical optimization of middle class truck chassis
A series of the projects which we have determined the cause of the possible component failure and, proposed the optimized solutions using FEM in the critical parts of the front chassis of middle class trucks.
For these projects we have use ANSYS mechanical as the FEM software and FKM and ISO standards as guide lines.
If you are interested you can find out more about these projects here.
Analysis of a pressure vessel for safety and earthquake loads
In this project, we have optimized a pressure vessel to fulfil the requirements for earthquake safety as defined in EN 1998-1 ISO standard as well as in the pressure vessel codes.
The FEM analysis results show that the original design needs to be optimized, the legs of the pressure vessel that are in contact with foundation plates do not provide enough strength to meet displacement criteria for earthquake accelerations.
If you are interested you can find out more about these projects here.
SIMULATION TUTORIALS
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Simulation of the Impact Phenomena – ANSYS tutorial
βοΈΒ In this tutorial, we will learn how to do a simulation of the Impact using ANSYS Explicit Dynamics. We use nonlinear materials for impact analysis. Through this tutorial, we will simulate the impact of a bullet on a steel wall. The dimensions of the model are chosen based on a calibre 22 bullet. We will …
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Post Buckling Analysis of Cylindrical Shells – ANSYS Tutorial
In this video tutorial, we will learn about performing post buckling analysis of cylindrical shells under hydrostatic pressure in ANSYS Workbench. Also, we will see how to create pre buckled model of the cylindrical shell with the desired buckling mode and deformation scale factor for use in the post-buckling analysis. Cylindrical shells can fail due …
Post Buckling Analysis of Cylindrical Shells – ANSYS Tutorial Read More »
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Step by step Transient Thermal Analysis – Cooling of molten Aluminum
Transient thermal analysis is an important procedure to determine the thermal behavior of a system in a specific period of time. In phase transition of molding process or in electronic parts simulations it is essential to consider the timely behavior of temperature changes. Using ANSYS transient thermal module we can evaluate complex systems in a …
Step by step Transient Thermal Analysis – Cooling of molten Aluminum Read More »
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Multi-Objective Optimization of Composites using ACP & Mechanical
In this tutorial, the step by step procedure of multi-objective optimization of composites by ANSYS composite PrepPost (ACP) and the mechanical module is described. Finding the best method for arranging the thickness and angle of composite layers is always very challenging and can be time-consuming. With the help of ANSYS composite PrepPost, optimization methods, and …
Multi-Objective Optimization of Composites using ACP & Mechanical Read More »
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Design of a composite joint in Ansys Composite PrepPost (ACP)
In this video tutorial, we are going to model a composite joint using Ansys Composite PrepPost with full details. It demonstrates an assembly modeling approach in ACP and highlights the strengths of the oriented element sets. T-Joints are typical connections in composite constructions. They are used to connect two parts at right angles.
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Hydrostatic Calculation | SolidWorks Tutorial
Comparison of FEM and analytical results for hydrostatic pressure calculation using SolidWorks simulation. One of the common issues in the engineering world is Hydrostatic pressure. Any plate exposed to a liquid, such as a gate valve in a dam, the wall of a liquid storage tank, or the hull of a ship at rest, is …
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