Our CAD services begin with detailed 3D modeling that captures intricate geometries and ensures seamless integration between components. Whether designing lightweight structures for high-speed applications, aerodynamically optimized surfaces, or systems that must endure extreme operating environments, we tailor every detail for peak functionality. Through parametric design, we ensure adaptability and scalability, enabling quick revisions and multiple iterations to meet evolving requirements.
3D Modeling and Assembly Design: Creating detailed and realistic models that bring your ideas to life while ensuring compatibility between all system components.
Design for Manufacturability (DFM): Optimizing designs to balance innovation with practical production requirements, reducing costs and streamlining fabrication processes.
Reverse Engineering: Reconstructing and enhancing designs from physical components to improve functionality or upgrade legacy systems.
Assembly Simulations: Testing and validating component interactions to identify potential interferences and ensure seamless operation.
Our CAD solutions are built to address real-world challenges, including high thermal loads, dynamic stresses, and aerodynamic efficiency. By integrating advanced modeling techniques with deep industry expertise, we help clients innovate with confidence, delivering designs that are as practical as they are cutting-edge.
Using sophisticated simulation tools, we model and analyze how gases and liquids behave under real-world conditions. For systems operating in high-stakes environments, such as thermal management systems, propulsion units, or fluid transfer mechanisms, our CFD solutions provide actionable insights to refine designs and enhance efficiency.
Multiphase Simulations: Evaluating interactions between different phases (e.g., gas-liquid or liquid-solid) to improve processes like fuel injection, cavitation prevention, and lubrication.
Particle Simulations: Analyzing the behavior of particulates in fluid systems, such as erosion caused by solid particles or the dispersion of contaminants in exhaust systems.
Aerodynamic and Hydrodynamic Analysis: Optimizing shapes and surfaces to reduce drag, improve flow patterns, and enhance overall performance.
Thermal Simulations: Studying heat transfer mechanisms to ensure effective cooling and thermal management, crucial for components exposed to high temperatures.
Pressure and Flow Distribution: Ensuring consistent and efficient fluid movement across varying conditions to maintain system reliability.
Optimization Studies: Conducting iterative analyses to identify the best possible designs, balancing performance and cost-effectiveness.
Our CFD solutions save time and costs by minimizing the need for physical prototypes, accelerating development cycles, and ensuring compliance with stringent performance standards. Whether analyzing airflow over aerodynamic surfaces, optimizing heat exchangers, or improving fuel efficiency in combustion systems, our simulations provide the clarity needed to achieve breakthrough innovation.
Finite Element Method (FEM) simulations are integral to SraAI’s engineering analysis services, providing an in-depth understanding of how materials and components behave under various conditions. Whether optimizing structural integrity, assessing thermal performance, or evaluating complex material interactions, our FEA solutions ensure that your designs are both safe and reliable.
Linear Analysis: Conducting initial assessments to evaluate stresses, strains, and deformations under predictable, constant material behavior.
Non-Linear Analysis: Capturing the behavior of systems under complex conditions, such as large deformations, contact issues, or material plasticity. This is critical for components operating under extreme stress or pressure.
Modal Analysis:Evaluating natural frequencies and vibration characteristics to ensure system stability and prevent resonance-related failures, particularly in rotating machinery or structural assemblies.
Beyond these core services, we also specialize in:
Thermal Stress Analysis: Studying material performance under thermal expansion and contraction to ensure durability in fluctuating temperature environments.
Dynamic Simulations: Analyzing time-dependent behaviors, such as vibrations, impacts, and cyclic loads, to validate performance in real-world scenarios.
Fatigue and Fracture Analysis: Predicting component lifespans under repetitive or high-stress conditions to prevent premature failures.
Our FEM solutions are instrumental in designing lightweight structures, high-pressure systems, and crash-resistant assemblies. For example, we analyze load distribution in structural frames to identify potential weaknesses, optimize material use, and maximize safety margins. In thermal applications, we evaluate the impact of extreme temperatures on material properties, ensuring long-term reliability.
By combining advanced simulation techniques with domain-specific knowledge, we help clients create robust, efficient, and cost-effective designs. Our FEA services not only identify vulnerabilities but also provide actionable recommendations to enhance performance, reduce material usage, and ensure compliance with industry standards.