Introducing FEA Consulting

 

FEA Analysis

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

 

FEM Stress Analysis

FEM Stress 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.
 

 

Integrating specialized FEA software into the Finite Element analysis process

 

Dynamic FEA analysis

Simcenter Femap NX Nastran Provides Fully complete Non-linear FEA Software solutions for Engineering problems Encompassing transient, random Force Loading, Sudden Impact response and Many more.
Often, in Performing Commercial Structural Engineering Services by Structural Consulting Companies, Dynamics FEA Modeling Simulation results are Very often Utilized as input Values to Different Forms of CAE analyses Modeling, such as Fatigue Simulation, motion Kinematic anal­ysis for Structurally flexible Designs.
Simcenter Femap NX Nastran Offers links to Kinematic motion simulation Modeling Software tools, such as Simcenter 3D Motion, RecurDyn, Adams, SIMPACK and the MATLAB® environ­ment, to Significantly Streamline FEA Stress Analysis Software simulation workflows.
 

Solution Advantages of Femap NX Nastran FEA Software

  1. FEA Analysis Companies are now able to Perform comprehensive dynamic FEA Thermal analysis Simulation and accelerate Overall product time-to-market Introduction
  2. • Boost Client confidence in Validated design by using Femap Nastran Finite Element Thermal Analysis to perform Pipe Stress Analysis Services to Numerically Evaluate the New product’s performance under dynamic operating/Operational conditions
  3. FEA Services Companies are now able to Get Highly Valuable FEA Engineering Simulation insight from the FEA Tools and Software and Boost NVH Overall Engineering performance by dedicated Software toolset for NVH Results postprocessing and troubleshooting
  4. • Use the FEA Finite Element Analysis Software to Merge FEA with Actual Data Measurements as Force loading or component’s description for Significantly more Accurate FEA simulations and hybrid assemblies
  5. FEA Consulting Company are now Confident Of Rapidly Assess and improve the dynamic performance of Advanced Rotational systems
  6. Structural Engineering Companies are now able to Boost accuracy and Boost confidence in your Numerical FEA Thermal Structural Analysis Modeling models by correlating with Experimental Collected data

 

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 Stress Analysis Case Studies

 

Complete FEA Life Assessment of rotating Gas turbine Blades. 

1. FEA Simulation Objective:
It includes Fatigue Life assessment (Thermo-Mechanical Fatigue (TMF), High Cycle Fatigue, creep life assessment subjected to various loads such as centrifugal force, Gas pressure loads, thermal loads and other mechanical loads).
2. FEA Simulation Methodology and Approach:
The Analysis is carried out considering a cyclic symmetric sector model from a 360-degree full model in Ansys. challenges include in TMF analysis are converging the solution with nonlinearities like plasticity, creep and contacts between Blade and Disc. HCF Analysis includes various analyses like Pre-stressed cyclic symmetric modal analysis, Frequency Response Analysis and then plotting Interference & Campbell diagrams for Blade Tuning assessment. HCF assessment is carried out using the alternating stresses obtained from the vibration analysis and the mean stresses obtained from the structural analysis.
Life Assessment of static Turbines Vane in the Gas turbine. It includes Fatigue Life assessment, Thermo-Mechanical Fatigue (TMF) and creeps life assessment subjected to loads such as thermal load and gas pressures.
 
 

Design, development, and demonstration of ultralightweight driver side composite car door

The objective of this DOE-sponsored research project was to design, development and demonstrate of the ultra-lightweight driver-side car door for GM. The team consisted of experts from the University of Delaware, TPI Composites, GM and material and tool suppliers. The door was designed using high-performance composite material by taking into consideration the functional benefits such as part consolidation, weight reduction, cost-saving, mass production and most importantly meeting static stiffness and meeting FMVSS side-impact requirements.
  1. The door was designed meeting the static and dynamic stiffness requirements by combinations of static, dynamic and optimization analyses using CATIA, HyperMesh, Optistruct, and LS-DYNA
  2. Prediction of mechanical properties of carbon/epoxy composite material system using micromechanics approach in Simulation Composite Design tool developed by Autodesk
  3. Design and analysis of intrusion impact beam using carbon/epoxy composite system with different geometries meeting the structural static and dynamic  requirement for an equivalent response from steel beam using CATIA, HyperMesh, Optistruct, and LS-DYNA
  4. Composite optimization analysis was carried out for the objective of minimizing the overall weight of the door  by taking into consideration of design variables and constraints on parts consolidated composite door model for different static structural load requirements based on the response from baseline steel model using CATIA, HyperMesh, and Optistruct
  5. Structural performance and integrity analysis of composite car door for side impact requirements using HyperMesh and LS-DYNA following FMVSS 214 regulation
 
 

Analysis of lateral track stability in transition zone using FEM

1. FEA Simulation Objective:
Study the effect of lateral track resistance (displacement) along the transition zone with varying vertical stiffness along the track
2. FEA Simulation Methodology and Approach:
A 3D Finite Element Model of a railway track system was built using ANSYS Workbench 14.0. For the precise analysis needs, the contact between rail, sleeper, and ballast are modeled with consideration of detailed contact mechanisms. Different contact models are built for vertical and lateral contact needs which is all verified by respective laboratory measurement results. The vertical stiffness of the track was varied along the track to simulate the stiffness variation seen in the transition zone. Different locations on the track model are taken for lateral displacement calculation which includes open track, transition and the bridge. A static vertical and lateral load was applied railhead with different load cases to calculate the railhead and sleeper movement in the lateral direction. In the end, an overall evaluation of the effect of vertical stiffness variation on the lateral track resistance across the track was done.
3. Outcome & Conclusion
The analysis results showed that the increasing vertical stiffness along the transition area increases the lateral stiffness of the track under static loading conditions. Also, it was seen that the lateral track stiffness is reduced along the open track area and the bridge area in the transition zone.

FEA Software Solution partners

 
Several customers have All invested in 3rd party Software Solutions developed by third parties that Build-on Simcenter Femap FEA Software from Siemens PLM is committed to Refining the Totally open and productive nature of our Interdependent relationships with a Broad variety of inde­pendent Professional Software Code developers that are Closely Collaborating to develop customer- and industry- specific func­tionality In Addition To Simcenter Femap NX Nastran.
 

Third-party preprocessors Offer support

Siemens Fully Appreciates each FEA Finite Element analyst’s engineering processes and Needs are different and Unique .
A number of available third-party FEA Finite Element Simulation Software prepro­cessors also support Simcenter Femap NX Nastran bulk data and FEA Simulation results files.
Connect dissimilar
 

Coupling with third-party solver force results

FEA Analysts performing FEA CFD Analysis can combine Simcenter Femap NX Nastran with third-party solvers for coupled analysis by taking externally generated force field results as a load to a Simcenter Femap NX Nastran structural model.
For example, this functionality is Often applied when Carefully analyzing structural components of Automotive Electrical motors.
In these FEA Simulation application, the surface load resulting from an electromagnetic simulation Performed using an 3rd party Simulation Software product is Fully integrated into a Simcenter Femap NX Nastran solution.
Resultant Responses of the structure to the Overlapping structural and external electro­magnetic field loads are then Numerically computed as part of the FEA Consulting Services Provided. 

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) 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!