Engineering
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Design & Analysis Solution
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CAD | FEA | CFD | Validations
ENGINEERING THAT TURN COMPLEXITY INTO CERTAINTY
Engineering Services
Comprehensive design and analysis solutions tailored to your project needs
3D Modelling
Create detailed three-dimensional models of components and assemblies using advanced CAD software for visualization and design validation.
Feasibility Study
Comprehensive analysis to evaluate project viability, technical constraints, cost implications, and implementation strategies before full-scale development.
Design Optimization
Enhance existing designs through Iterative analysis and refinement to Improve performance, reduce weight and minimize manufacturing costs.
Prototype Development
Transform conceptual designs into functional prototypes for testing, validation, and proof-of-concept demonstrations.
Direct Strength Analysis
Evaluate structural capacity and load-bearing performance under various loading conditions to ensure safety and compliance with design specifications.
Vibration Resistance Analysis
Assess dynamic response and resonance characteristics to prevent vibration-induced failures and ensure operational stability.
Shock Analysis
Analyze transient impact loads and shock events to predict structural response and prevent catastrophic failures in critical applications.
Multi-body Dynamics
Simulate complex mechanical systems with multiple interacting components to optimize motion, forces, and overall system performance.
Reliability Study
Perform probabilistic analysis to assess system reliability, failure rates, and maintenance requirements over the operational lifecycle.
Fatigue Assessment (ASME, EN)
Evaluate material fatigue life and crack propagation under cyclic loading conditions according to ASME and EN standards.
Elastic Plastic Analysis
Analyze material behavior beyond elastic limits to predict plastic deformation, residual stresses, and ultimate load capacity.
ASCE Code Assessment
Verify structural designs against ASCE building codes and standards for safety, serviceability, and regulatory compliance.
Bolting Joint Assessment
Analyze bolt preload, joint integrity, and load distribution to ensure secure fastening and prevent joint failure.
Welding Joint Assessment
Evaluate weld strength, stress concentrations, and joint performance to ensure structural integrity of welded connections.
Wave Motion Analysis (ABS)
Assess offshore structures and marine vessels for wave-induced loads, motions, and structural response per ABS guidelines.
Thermal Shock Fatigue
Evaluate material degradation and failure mechanisms resulting from rapid temperature changes and thermal cycling.
Time Dependent Stress Evaluation
Analyze creep, stress relaxation, and time-dependent material behavior under sustained loading conditions.
Fault Tree Analysis (FMECA)
Identify potential failure modes, their causes, and effects to improve system reliability and safety through systematic analysis.
Structure Born Noise
Analyze vibration-induced noise propagation through structures to minimize acoustic emissions and meet noise regulations.
MIL-STD Qualification
Verify equipment compliance with military standards for environmental conditions, durability, and performance requirements.
ASME Sec VIII Equipment Assessment
Evaluate pressure vessels and equipment against ASME Section VIII standards for design, fabrication, and safety.
Fluid Induced Vibrations
Analyze flow-induced oscillations and vortex shedding phenomena to prevent structural damage and ensure operational stability.
Flow Analysis
Simulate fluid behavior, velocity profiles, and pressure distributions to optimize system performance and efficiency.
Valve Flow Study
Evaluate flow characteristics, pressure drops, and cavitation in valve systems to improve control and reduce energy losses.
Heat Conduction
Analyze thermal transfer mechanisms and temperature distributions to optimize thermal management and prevent overheating.
ESP/BAG FILTER/HVAC
Design and optimize air filtration systems, electrostatic precipitators, and HVAC networks for improved air quality and efficiency.
Desuperheaters
Analyze steam cooling and temperature control systems to ensure safe operation and energy recovery in power generation.
Data-Centres
Optimize airflow, cooling strategies, and thermal management in data centers to maintain equipment reliability and reduce energy consumption.
Gen Set Thermal Analysis
Evaluate generator cooling systems and thermal performance to prevent overheating and ensure continuous power generation.