Arks Solutions offers finite element analysis (FEA) services and consulting for a wide range of domains. Arks Solutions has focused on providing the highest quality FEA consulting services to our customers across domains . Our FEA consulting and services are combined with our experience in varied domains like Structural analysis, Thermal analysis, Computational Fluid dynamics, Multi body dynamics and design optimization to deliver our customers, products that are appealing and structurally performing sound and economical. For customers product development projects we use latest Finite Element analysis and Computational Fluid dynamics execution methodology.
- Structural Analysis
- Thermal Analysis
- Fluid Flow Analysis
- Multi Physics
- Mechanism | Dynamic | Analysis design
- Design Optimization
Structural Analysis is the determination of the effects of loads on physical structures and their components. Structures subject to this type of analysis include all that must withstand loads, such as buildings, bridges, vehicles, machinery, furniture, attire, soil strata, prostheses and biological tissue.In Finite Element Analysis , the structural problems are classified as below:
Estimating the life of a part is very important step in various domains like Automobile, Aerospace and Industrial Engineering. We, therefore, provide Durability Analysis to evaluate the overall life of the structure for a given loading condition.NVH
Noise, Vibration and Harshness analysis is performed to understand the behavior of structure when subjected to dynamic loading conditions. Reduced vibration improves performance & efficiencies. We experts in the field of vibrations and have capabilities to address for Automotive ,Aerospace and Industrial domains.
2. Impact /Crash
Impact analysis is performed to understand energy transmitted and dissipated in structures undergoing large strain and large deformation under the influence of impact loads. We have domain experts , who can cater to the needs of Automotive ,consumer products , Defense products in field of impact/ crash simulations .
A Thermal Analysis is a branch of materials science where the properties of materials are studied as they change with temperature. Thermal Analysis is conducted based on the design with Conduction, Convection & Radiation in consideration.
Fluid Flow Analysis
Fluid Flow Analysis to solve and analyze problems that involve fluid flows. Computers are used to perform the calculations required to simulate the interaction of liquids and gases with surfaces defined by boundary conditions.The fundamental basis of almost all CFD problems are the Navier–Stokes equations, which define any single-phase fluid flow. These equations can be simplified by removing terms describing viscosity to yield the Euler equations. Further simplification, by removing terms describing vorticity yields the full potential equations. Finally, for small perturbations in subsonic and supersonic flows (not transonic or hypersonic) these equations can be linear zed to yield the linear zed potential equations.
Simulation that involves multiple physical models or multiple simultaneous physical phenomena. Like the electromagnetic coupled with Structural and Magneto-structural ,FSI-Fluid Structure interactions, Induction heating, Piezo electric..etc. are being addressed to our customers.
Mechanism | Dynamic | Analysis design
A Multibody system or Mechanisms are used to model the dynamic behavior of interconnected rigid or flexible bodies, each of which may undergo large translational and rotational displacements for the purpose of achieving desired work. The new concepts to accomplish a work by means of mechanism design can be achieved through Kinematics & the dynamic loads generated due to the moving parts in the mechanisms can be obtained from MBD simulation
Designers will have a major challenge in realizing their design due to areas of cost, weight, manufacturability, quality, and performance. In order to realize the design , he has to compromise and sacrifice some of his decisions. Understanding the impact of his decisions on all the parameters is really a difficult task. Designers are faced with question on arriving at the best solution considering the overall design parameters. Multi discipline Optimization is the key to success in achieving the optimum solutions. Arks solutions has the necessary capability to simultaneously optimize for different requirements and disciplines.