Introducing FEA Consulting

 

FEA Analysis

FEA Analysis Services from BroadTech Engineering provides Next Generation Solutions that Solve Today’s Toughest Engineering Challenges.

 

Structural Consultants

Structural Consultant service is at the heart of what we do at BroadTech Engineering Singapore. Through our FEA services, we have the capability to use world-class FEA software to assist you in solving complex structural engineering problems so as to enable you to make a calculated and accurate engineering design decision within a shorter span of time.
To beat the Market competition, Professional FEA Consultants and Engineering companies Now Require to develop products that are innovative and high quality, yet cost-effective Accomplishing this requires good decisions during development and supporting design decisions drives many FEA Consulting Services companies to make investments in the design process FEA Structural Simulation Software tools enable Structural Engineering Services companies to efficiently make better decisions about cost and quality. They also guide decision-making around experimentation, which leads to greater innovation. 
However, there are several areas that slow down the Thermal FEM Analysis process and impede overall product development Looking at Finite Analysis Software tools that improve the overall efficiency of these Aspects will enable better decisions
 
Structural Consultants
 

FEA Analysis Software Module Advantages

Solid Edge Simulation is the key Software Constituent Part that is focused on Delivering FEA Finite Element Thermal Analysis Much closer to the Product Development workflow process and is designed to make FEA Thermal Structural Analysis Simulation more accessible and easier to use by both New users and Seasoned experts while maintaining the Absolute Data integrity of both the 3D CAD model and the FEA Simulation analysis Findings.
  1. • Validate the Precision of the finite element model for dynamic FEA Fracture analysis Modeling
  2. • Determine Optimized sensor and exciter Placement locations Prior to performing Actual physical modal tests
  3. • Increase Engineering productivity by Allowing model validation in the same environment as Applied for model creation and FEM Simulation analysis
 

FEA Analysis Software Key features

  1. • Supports Femap Nastran, Femap Samcef® FEM software, Abaqus, ANSYS, and MSC Nastran results
  2. • Easy Test solution Data import Utilizing universal files or Femap Testlab FEM Analysis software files
  3. • Automated and Conventional mapping of Finite Element FEA model nodes and Measurement sensors
  4. • Variety of mode-pairing Feature Selection options and Data correlation criteria
  5. • Pretest Management in the FEA Software for optimal Quantity and location of Measurement sensors and exciters
  6. • Highly Intuitive and powerful Testing model alignment for Assisting in the FEA Modeling Services
  7. • Dynamically Interactive correlation with Data Management matrix and mode-shape displays in the FEM Simulation Software
 

 

Ease of FEA modeling and engineering Simulation workflow used by Our Structural Consultants

FEA Engineer Consultants can Construct Simcenter Femap Thermal Analysis models with a Specific Quantity of available FEA pre­processors that Fully support Simcenter Femap NX Nastran.  
But to Streamline the FEA modeling Workflow, even more, Simcenter Femap NX Nastran includes Useful features that enable FEA engineering Consultants to Seamlessly connect complex FEA Software solving components and speed Up Computation time.
 

Fast frequency response

Modal methods are often used in forced response dynamic FEA analysis because they Assist to Lower the Numerical model size considerably, and the modes can usually be treated as uncoupled, which facilitates fast solutions.
But for full vehicle Assembly NVH Simulation, damping and vibroacoustic coupling Behavior very Frequently lead to modal coupling, which lasts for a more computationally expensive solution. Siemens Femap NX Nastran FEA Software has exceptional frequency response methods that can be used to efficiently solve such problems uring the FEA Stress Analysis.

 

Overview

 

LS-DYNA Consulting

3. EM SC Consulting

1. PCB Simulation
2. SI, PI, S-Parameters
3. Return/Insertion Loss
4. Cross Talk, Eye Diagram
5. RLC Extraction

About Us

BroadTech Engineering is a Leading Engineering Simulation and Numerical Modelling Consultancy in Singapore.
We Help Our Clients Gain Valuable Insights to Optimize and Improve Product Performance, Reliability, and Efficiency.
 

 

Questions?
Contact Us!

Please fill out the form below. Our friendly customer service staff will get back to you as soon as we can.
3. LS-DYNA Consulting
3. LS-DYNA Consulting
3. LS-DYNA Consulting
3. LS-DYNA Consulting
3. LS-DYNA Consulting
3. LS-DYNA Consulting

Featured Structural Consultant Case Studies

 

FEA Simulation of crack propagation in Dissimilar Metal

Gurson-Tvergaard-Needleman (GTN) model has been applied to the literature problem (Wang et al, Numerical investigation of ductile crack to simulate the crack growth behavior in a dissimilar metal welded joints, Nuclear Engg. and Design, 2012).
In that, simulation has done for crack propagation and measures J-integral vs crack extension.
 

Static Structural Analysis over Helicopter Components.

The linear static analysis are performed over the helicopter components such as landing gear assembly, Tail boom assembly and main rotor assembly. The complete product development are involved in this project which includes Product design and Development, CFD, FEA and Prototype. Our FEA Consultant have worked with FEA team and learned the industrial process flow activities
 
 

Simulation of thermal debinding: effects of mass transport on equivalent stress:

1. FEA Simulation Objective:
Objective: investigate into effects of mass transport on equivalent stress; 
 
2. FEA Simulation Methodology and Approach:
A computer code is developed to simulate the process numerically, and control volume finite difference and plane strain elastic finite element methods are employed to solve the governing systems of equations;
 
3. Outcome & Conclusion
A model, simultaneously considering heat transfer, polymer pyrolysis, mass transport, particle packing, strain and stress, equivalent stress, and their interactions, is proposed for thermal debinding process of polymer from a PIM compact. 
 
 

Sinusoidal Vibrational Analysis of Bracket

 

1. FEA Simulation objective:
The objective of the simulation was to determine the location of maximum stress and the magnitude of stress.
 
2. FEA Simulation Methodology and Approach:
The Eigen modes are extracted in the first step using the frequency step on ABAQUS. The second step involves using the Steady State Dynamics, Modal step to determine the response of the system by specifying the lower and the upper frequency and also the damping factors.
 
3. Outcome & Conclusion
The outcome of the analysis was the location of the maximum stress determined. The design modification was suggested in order to decrease the stress at the particular point.
 
 
 

Structural Analysis of the automobile shrouds

1. FEA Simulation objective:
To determine the region of maximum  stresses for different load cases acting on the shrouds.
 
2. FEA Simulation Methodology and Approach:
A simple static analysis step is used for such an analysis. The major work is involved in tet meshing of the complex shroud structure within a given time frame.
The shroud along with the motor and the fan is imported into ABAQUS and loads are specified based on the experimental data provided.
 
3. Outcome & Conclusion
The locations of maximum stress are reported along with the displacements. If the displacements are withing the specified range, the shroud is passed for testing. If not, structural changes are suggested such as making the shroud stiffer with more material in certain locations. The same applies to the stresses, where the suggestions are made for the regions with high stress values.

Our Engineering Consulting Clients

BroadTech Engineering works closely with clients across a diversity of key industries in Singapore, such as Electronics, Energy, Aerospace, Marine, Government, and Building & Construction.

BroadTech Engineering Client

 

 

Questions?
Contact Us!

Please fill out the form below. Our friendly customer service staff will get back to you as soon as we can.
1. Powerful Simulation Software Tools

1. Powerful Simulation Software Tools

2. Simulation Consultants with Extensive Research & Professional Experience

2. Simulation Consultants with Extensive Research & Professional Experience

3. Simulation projects Completed in a Timely and Cost-effective Manner

3. Simulation projects Completed in a Timely and Cost-effective Manner

4. Proven Track Record

4. Proven Track Record

5. Affordable

5. Affordable

6. Full Knowledge Transfer

6. Full Knowledge Transfer

 

Contact Info

✉   info(at)broadtechengineering.com
 
☎   (+65) 818 22236
 
22 Sin Ming Lane, Midview City, Singapore 573969

 

Our Partners

Siemens PLM Partner_BroadTech

Proplus Partner_Logo_730x200

 

Consulting

Over the years, BroadTech Engineering has Set Itself Apart By Striving To Exceed Client Expectations In Terms of Accuracy, Timeliness and Knowledge Transfer. Our Process is Both Cost-Effective and Collaborative, Ensuring That We Solve Our Clients Problems.

  1. FEA Consulting
  2. CFD Consulting
  3. Electronic Design Consulting
  4. Semiconductor Design Consulting

Software

At BroadTech Engineering, we are seasoned experts in Star CCM+ and ProPlus Software in our daily work.
We can help walk you through the software acquisition process, installation, and technical support.

  1. Siemens Star CCM+
  2. Femap (FEA)
  3. HEEDS Design Optimization
  4. Solid Edge (CAD)
  5. Proplus Solutions SPICE Simulator
  6. Proplus Solutions DFY Platform
  7. Proplus Solutions High-Capacity Waveform Viewer

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Discuss With Us Your Project!