About Us
SimFirst, an engineering consulting firm, was founded in 2018 to provide quality solutions in the Engineering and CAE fields.
SimFirst offers services in simulation services, general engineering, optimization, and drafting. The simulation service includes services in structural simulation (FEA), computational fluid dynamics (CFD), and product optimization.
We have catered services in automotive, oil & gas, valve and actuator industries, defense, machinery industries, foundries, consumer products, energy, and utilities.
Our Vision
To provide best-in-class CAE & CAD solutions.
Our Mission
Inspire human intellect to continuously innovate so that sustainable solutions are provided to business challenges.
Our core values
Commitment
Excellence
Integrity
Respect
Trust
Flexibility
Why Choose Us
- Rich Experience : Experience since 2013 with a sharp focus only on CAE solutions and Services
- CAE Ownership : Seamless integration of Multi Physics, Technology and Systems know how under one roof
- Innovation : We offer method development and CAE automation.
- Cost Competent : Being a Lean Organization, value is at the core of every pricing decision
- Flexibility : We offer various flexible models and ensure quick response time
PROCESS AUTOMATION
The original promise of CAE was to eliminate physical prototypes and tests, yet nearly 50 years into the journey physical prototypes are still key milestones in almost every design program. The reason why comes down to confidence; many engineers and their management simply don't trust that they get reliable results using CAE. Simulation technology is not the problem; most companies have demonstrated that when best practices are followed, results are consistent and correlate well with the physical world. Inconsistency in the application of CAE technology leads to variability in results.
NON-LINEAR ANALYSIS
All physical processes are inherently nonlinear to a certain extent. Failure to account for nonlinear behavior can lead to product failures, safety issues, and unnecessary costs to product manufacturers.
Nonlinear responses could be caused by large deformations, material behavior, the effect of contact, or other boundary condition nonlinearities. In reality, many structures exhibit combinations of these various nonlinearities.
FATIGUE AND DURABILITY
One of the most challenging tasks of the design and development process is predicting failure over time. Without knowledge of how a structure might fail, it is harder to improve its safety performance. Physical testing for all possible failure scenarios can be prohibitively expensive. The analysis is no longer limited to fatigue life calculations; output can now include safe working stresses, warranty claim curves, and the effects of high temperatures, manufacturing processes, and assembly stresses.
DESIGN OPTIMIZATION
Product design and development require that engineers consider trade-offs between product attributes in the areas of cost, weight, manufacturability, quality, and performance. The difficult challenge for engineers is to arrive at the best overall design, make the right compromises, and not sacrifice critical attributes like safety.
