Introducing FEA Consulting

 

FEA Analysis

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

 

FEM Analysis

FEM Analysis is at the heart of what we do at BroadTech Engineering Singapore. Through our FEA services, we can use world-class FEA software to assist you in solving complex structural engineering problems to enable you to make a calculated and accurate engineering design decision within a shorter period.
 
 

 

Specially Integrate real-world Experimental Testing data in the simulation

Utilizing Femap NX Nastran for Structure dynamics Application enables FEA Consultants to Deploy a Distinctive hybrid FEA Structural Analysis simulation Methodology to Use Experimental data as a Module representation in a system-level finite element (FE) model, or to apply Realistic loading to Precisely and Quickly Shorten the engineering Design process.
 

 Boosting confidence in dynamic FE models

An integral part of making product engineering decisions is having Absolute confidence in the Theoretical Structural FEA Simulation models so FEA Engineers can accurately Forecast reality.
Correlation solutions allow FEA Structure Analyst to validate and improve the Complex dynamic Performance of Numerical FEA simulation models from physical test data.
 
 

Femap Nastran DMP

Femap Nastran DMP Assist a significant Minimization in Computational time by Utilizing multiple processor Cores and Computer resources.
Femap Nastran DMP FEA Software Allows a Much higher level of parallelism and Offers better scalability than shared memory processing (SMP).
 
Key FEA Analysis features
  1. • Comprehensive dynamic response Data set. Supports frequency, transient, complex eigenvalue, random response, shock spectrum, and other FEA Simulation service analysis
  2. • Includes a list of eigenvalue Physics solvers such as Lanczos, Householder, Hessenberg, etc.
  3. • FEA Structure Wind Load Simulation Software Supports Many Forms of dynamic Loading loading in Both time and frequency domain
  4. • Quick frequency response solvers Suitable to Huge FEA models Typically used for Pipe Stress Engineering

 


 

Ease of FEA modeling and engineering Simulation Processes

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

Integrating Simcenter 3D and Femap

Siemens’ Approach is to develop Simcenter Femap NX Nastran for the most advanced and Seasoned FEA Engineering Services users.
The same robust Features are then Fully integrated with Simcenter 3D and Femap™ software tools to benefit a Broader FEA Finite Analysis Software user community. Solver and graphics teams Collaborate closely, making sure Improvements to Simcenter Femap NX Nastran Core capabilities are rapidly supported by corresponding advances in Simcenter 3D and Femap.
…robust FEA Simulation Features are then Smoothly integrated with Simcenter 3D and Femap FEA software tools to Tremendously Help a Broader community.

 

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 FEM Analysis Case Studies

 

FE support and analysis for engine fan cowl manufactured for Flight Test Bed (FTB)

1. FEA Simulation objective :
 Update the FE model for FTB fan cowl design and provide design suggestions based on static and fatigue hand calculations. An iterative process to be performed until the Preliminary Design Review (PDR) is completed
2. FEA Simulation Methodology and approach:
  1. Create a FE model for the latest available design and perform validation checks like a Ground check, Free-Free check, and Equilibrium check.
  2. Understand the physics of component and assembly interfaces for boundary conditions.
  3. Perform Buckling analysis using SOL105 and check for modes with Eigenvalues less than 1.5 on buckling prone components like skin and panels. Perform iterations to avoid buckling for working loads on buckling prone components
  4. Perform static and Fatigue analysis for all components using material allowable and forces/stresses extracted from FE. List out all failure regions and provide possible solutions to attain positive margins.
  5. Perform the whole process for the new design available for FTB and make sure that all margins are positive by PDR.
3. Outcome & Conclusion
The final design is frozen for PDR with all positive margins for all sub-components of Fan cowl.
 
 

Reverse engineering of aircraft spoiler

1. FEA Simulation Objective:
Validate the static and dynamic behavior of the FE model created for incumbent (existing) design and to generate an alternate design with composite skins and spars which can be manufactured
2. FEA Simulation Methodology and Approach:
  1. Achieve a good understanding of existing design along with sub-components and their functionality
  2. Use 3D scanned model and designer’s CAD model to generate FE mesh using Hypermesh.
  3. Make appropriate assumptions and FE idealizations for connections as 1st iteration.
  4. Understand the physics of component and assembly interfaces for boundary conditions.
  5. Identify different loading conditions in which components can be loaded in practical conditions.
  6. Validate the results of the Incumbent FE model in terms of stiffness (static) and mass distribution (Dynamics) using experimental test conditions using MSC Nastran SOL 101 and SOL 103 (Free-Free, Fixed). Modify the FE model (as different iterations) to match the results of experimental results by sorting out initial assumptions and idealizations as per mode shape differences.
  7. Upon freezing incumbent design create an alternate Composite box structure (CBS) which should have enough stiffness as incumbent design and mode shapes similar to the incumbent model as per the component working condition.
3. Outcome & Conclusion
A CBS model design has been created by considering existing design philosophies that are both statically and dynamically equivalent to incumbent design.
 
 

Modal Analysis of GE9X Engine Turbine Blade

Description: FE Model prepared in Hypermesh and Ansys.
Material properties and boundary conditions are applied to the model by using Ansys APDL.
Structural analysis is performed for the load conditions then Evaluated natural frequencies and mode shape and investigated the resonance by Campbell diagram.

Features & Benefits of FEA Consulting 

An actual physical engineering test can reveal you of an 

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.

Featured Simulation Case Study

building energy design

 

 

shaft failure

 

 

 

high speed cabin

 

 

 

nozzle development

 

 

 

Call Us For a Free FEA Consultation

If you are still interested in learning more about our Consulting Services and to see what it can do for you, simply call to contact us today at +6581822236 for a no obligation discussion of your needs. Our knowledgeable and friendly engineering representative will be happy to assist.

Alternatively, for quote request, simply email us your detailed technical specification needs & requirements to info@broadtechengneering.com

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) 81822236
 
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!