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Analysis and Simulation

We Validate Our Models With Experimental Data

Analysis and Simulation

TSI provides advanced services on engineering and numerical simulation by means of FEA or other analytical methods for a huge variety of equipment and structures Calculation and simulation services include:

DYNAMIC ANALYSIS

  • Modal Analysis.
  • Forced Response.
  • Vibration Levels Evaluation.
  • Earthquake simulation for equipment and components.
  • Shock Analysis.

THERMAL ANALYSIS

CORRELATION OF TEST DATA WITH FEM MODEL AND NUMERICAL SIMULATION

FATIGUE

STATIC ANALYSIS

  • Load analysis and sizing.
  • Modification and optimization simulations.

NON-LINEAR ANALYSIS AND BUCKLING

We are experts in FEM/FEA analysis and simulation. This method allows to predict the static, dynamic and thermal behaviour of a structure, equipment or component. We carry out our analyses and validations based on specifications and international codes.

TSI is a multidisciplinary team with more tan 20 years of experience in calculation and analysis.

Our models are validated with experimental tests so we can design and adapt the solutions to our client´s needs and requirements in the most efficient and reliable way Consult other of our services.

DYNAMIC ANALYSIS

This type of analysis is used to study the behaviour of structures, elements or components subject to variable loading in the time or frequency domain.

Modal Analysis

Evaluation of Dynamic behaviour of a structure

A Dynamic analysis consisting on a modal analysis and a frequency response analysis allows to study the dynamic behaviour of any structure providing estimation of vibration levels and stress contour plots.

Evaluation

Vibration Levels Evaluation

A modal analysis and a frequency response analysis provides information to study the vibration behaviour of any structure, system and components.

Seismic Analysis

Seismic Analysis for Equipment and Components

A seismic analysis is used to prove the capacity of a component to keep its structural integrity when subject to an earthquake event.

A spectrum response analysis is used to guarantee the correct working conditions for equipment in case of events defined by SSE curves (Safe Shutdown Earthquake) and OBE curves (Operating Basis Earthquake)

Shock Analysis

Checking the Capacity of the Structure

A shock analysis allows to study the capacity of any structure, equipment or component to keep its structural integrity when subject to a shock event.

Torsional Vibration Analysis

Reduces maintenance costs

Torsional Vibration Analysis of a system also extends the life of assets in automotive, industrial, or power generation applications. This calculation is also used to select the type of improvement for each case.

 

 

Lateral Vibration Calculation

The Rotating Equipment Warranty

A lateral vibration analysis provides sufficient information to guarantee that there are no natural frequencies near the nominal speed of rotative equipment.

Our models are validated with Experimental Tests so we can design and adapt the Solutions to our client´s needs and requirements in the most efficient and reliable way

THERMAL ANALYSIS

FEM analysis can also be used to evaluate other physical phenomena such as heat transfer.

Thermal analysis allows to develop safer and more efficient products and processes.

FEM TO DATA TEST CORRELATION AND NUMERICAL SIMULATION

The objective of these type of investigative services is to evaluate and adapt the real behaviour of any structure, equipment or component by means of numerical modelling using experimental data. These investigations allows to provide a definitive and tailored solution to our clients, based on a thorough diagnostic of the problem.

FATIGUE CALCULATION

Fatigue is the leading cause of breakdown due to mechanical components failure in service. Fatigue breakage is very dangerous since failure indications are usually very difficult to observe, producing a sudden failure event.

STATIC ANALYSIS

Static analysis allows to study the structural strength and deformations of any geometry by simulating its behaviour under static loading. This type of analysis provides sufficient information to design any structure and optimize material use.

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#FIBRE4YARDS: AWARDED AT JEC WORLD INNOVATION 2025

As partners in this innovative #FIBRE4YARDS project, and joining the entire consortium, we are delighted to receive the #JECWorldInnovation2025 award in the category of Maritime Transport and Shipbuilding. FIBRE4YARDS has developed new composite production technologies to redefine shipbuilding by adopting modular construction and automated processes – read on!

OCEANS 2024 | TSI presents cutting-edge technology to combat underwater noise in Halifax

We are pleased to inform that TSI, through its R&D&I Director Santiago Molins Riera, has recently participated in the #OCEANS2024 Congress held in Halifax (Canada) between 23-27 September 2024, with the technical paper ‘A Quick and Technically and Economically Feasible Response on Reducing the Underwater Radiated Noise (URN) by Existing Ships…’. It presents a quick, technically and economically feasible proposal for the reduction of URN produced by ships. Read on it!