Introducing FEA Consulting

 

FEA Analysis

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

 

FEA Structural Analysis

FEA Structural Analysis Simulation Services 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.
 
FEA Structural Analysis
 
 

Where does FEA Structural Analysis fit in the development process?

The FEA Simulation engineering analyst might double-check or verify that the preliminary FEA Analysis has been satisfactorily Finished before proceeding, but doesn’t really have to repeat that Entire preliminary Ansys Finite Element Analysis Evaluation.
The Mechanical engineering analyst Absolutely performing FEA Engineering Services Needs to focus on more Highly Complex FEA Fracture Analysis – which may include Thermal heat transfer (Convective, Radioactive, Conductive), Computational fluid Dynamics dynamic response, nonlinear analyses of motion dynamics.
The area with the biggest difference is regular updates to the FEA Stress Analysis software Solution Top Performing Structural Engineering Services Companies are 90% more likely to value a vendor who is actively developing their product and providing regular updates to the FEA Finite Element software Solution FEA Consulting Services Companies also value a strategy for openness. Given how common multi-CAD environments are, Structural Engineering Consultancy companies appreciate a vendor who is open to supporting other formats.
 
The Organizational Difficulties facing SME today when Implementing FEA Structural Analysis
The solution is to invest in fully integrated PLM Solutions in which both Product designers, Piping Engineering Consultants, and Professional FEA Consulting Professionals working in Stress Analysis Services Companies can easily use FEM Thermal Analysis Simulation to eliminate Inferior  Geometry designs digitally Much early in the Mechanical Engineering design-analysis process.
 
 

 
 

Evaluating composite Structural designs using FEA Structural Analysis

Simcenter Femap NX Nastran FEA Structure Wind Load Simulation Software is at the leading edge of Numerically Modeling the Physical Performance of Engineering products made From Man-made composite Building materials and Offers capabili­ties for Consistently developing material models and element types. Structure Integrity of composite designs can be Further evaluated Utilizing first-ply failure Assessment criteria such as Tsai-Wu or Hoffmann, advanced progressive failure Approaches, or composite delamination Modeling methods. Utilizing Structural design optimization Methodology during the FEM Stress Analysis, Trained FEA Consulting Engineers can essentially Design the Best optimal ply layup for a Specific Composite design, accounting for Material thickness Dimension, orien­tation, and Constituent material stiffness. Femap NX Nastran Response Dynamics FEM Modeling software is a Totally integrated FEA Stress Analysis solution that Performs FEA dynamic analysis Much more Affordable and Easy for the FEA Consulting Engineers and analysts.
It allows FEA you to use Structural Simulation Services to Accurately predicting the forced Loading response of Structure systems under Varied Structural loading Scenario Situation in a Unified Software graphical user Platform, thereby Lowering the complexity of the Early setting up and Starting FEM analysis and Offering Fast Crucial/Important Engineering Findings into Structural dynamic behavior.FEM Modeling Analysis information Generated can then be Utilized to Execute design studies to enhance the new product development process and confirm the quality of designs prior to physical prototyping and production.
 

 

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 Instance, this functionality is fre­quently Deployed when Carefully analyzing structural components of Industrial electric motors.
In these FEA Simulation applications, the surface load resulting from an electromagnetic simulation conducted Utilizing an external Simulation Software product is Fully integrated into a Simcenter Femap NX Nastran solution.
Resultant Responses of the structure to the combined structural and external electro­magnetic field Loadings are then Numerically computed as part of the FEA Consulting Services offered.

 

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
 

 

Simplifying component connectivity

The Simcenter Femap NX Nastran connectivity modeling features Allows Structural FEA Engineers and FEA Consulting analysts performing FEA Modeling Services to model contact Engineering problems for FEA Finite Element Software simulations that are otherwise linear, as well as more easily connect dissimi­lar FE meshes, thus saving FEA modeling time.
Connectivity features in Simcenter Femap NX Nastran Nastran include:
  1. Linear contact
  2. Glue connections for joining dissimilar meshes, including edge-surface and surface-surface connections
  3. Fastening Bolt preloading Tension
  4. Thermal Structure expansion for rigid elements
 

Computational analysis of Nitinol stent-graft for endovascular aortic repair (EVAR)

Computational analysis of Nitinol stent-graft for endovascular aortic repair (EVAR) of abdominal aortic aneurysm (AAA): Crimping, sealing and fluid-structure interaction (FSI)
 

1. FEA Simulation Objective:

Evaluated the crimping strain, sealing stress and contact forces on a Nitinol stent deployed in
the aorta during endovascular aortic (or aneurysm) repair (EVAR) procedures. Nitinol shape memory effect
(SME) is used. Our FEA Consultant also study the fluid-structure interaction (FSI) of the blood flow on the stented aorta.
 

2. FEA Simulation Methodology and Approach:

Solidworks is used to generate a closed-cell honeycomb stent structure used to treat abdominal
aortic aneurysm (AAA). Commercial Abaqus/Simulia finite element (FEM) simulation package
to study the displacements and stresses experienced by the stent during the crimping phase and deployment into the aortic segment. The Nitinol stent is covered with Dacron, a popular graft material. Our FEA Consultant implement the user-material (UMAT) subroutines to model the shape memory effect (SME) of Nitinol. The effect of the stent geometry is analyzed. The FSI analysis in Abaqus/Simulia is carried out to understand the effect of hemodynamic loading on the stent.
 

3. Outcomes & Conclusion:

Results indicate that the crimping strain increases as the stent strut spacing increases. This is also the case for the radius of curvature. Maximum strains developed on the stent during crimping are in the order of 10%. Stresses exerted by the stent needed to completely seal the aorta are found to be below the yield stress values of Nitinol (700 MPa). Wall shear stresses (WSS) on the stented aorta are close to WSS obtained on the aorta alone.
Conclusion:  Using Nitinol’s thermo-reactivity property as opposed to its superelasticity causes the stent-graft to deploy more gently.

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

.

Discuss With Us Your Project!