Product Design SolutionsProduct Engineering SolutionsProduct Manufacturing SolutionsProduct Management Solutions
 

Overview

Engineering & Analysis

Lantratech offers product-engineering solutions that give our clients achieve a competitive advantage backed by strong R&D in all aspects and stages of the product life cycle. The effective use of tools such as CAE and CFD software ensures the highest level of product engineering. Lantratech's end-to-end services include ideation / prototyping, new product development, product reengineering, sustenance, product testing and 24-hour support.

Benefits

  • Accurate assessment of the performance & safety of any design prior to manufacture
  • Foresee the implications of design changes and optimize accordingly
  • Identify and resolve design faults early
  • Unmatched insight into systems that may be difficult to prototype or test through experimentation
  • Minimize cost of materials & maximize product performance
  • Accurately predict mass flow rates, pressure drops, mixing rates, heat transfer rates & fluid dynamic forces
  • Reduce time to market
  • Reduce development costs

Engg. Consultant

Carrying out accurate and technically meaningful finite element analysis requires specialists with skill and experience. Lantratech provides finite analysis using the most advanced FEA/CFD software available. Our technical team members usually have PhDs as well as a broad range of practical industry experience. As a technology development and engineering company, Lantratech leverages the most advanced FEA/CFD techniques to provide real-world engineering outcomes that are practical, cost effective and commercially viable.

If your organization requires specialists in FEA services, CFD services, Design Troubleshooting, Product Qualification or independent FEA/CFD of your products, Lantratech has the expertise, resources and experience to meet your requirements.

Engg. Consultant

Finite Element Analysis(FEA)

FEA is a computer simulation technique that allows the performance capacity of a product to be analyzed in great detail. Stress analysis, vibration analysis, heat transfer analysis and other performance criteria are tested. By using this technique, designers can verify early in the design cycle if their product will conform to a client's specifications. This will accelerate the product development process. Finite Element Analysis can be used to identify the cause of in-service failures of existing products.

FEA can significantly reduce product cost by

  • Eliminating unnecessary over-engineering
  • Allowing excess material to be removed or cheaper material grades to be employed
  • Reducing exposure to technical risk
  • Requiring fewer physical prototypes and less prototype testing
  • Reducing time-to-market and cost-to-market

Application of FEA services

  • Stress Analysis (stress, strain, factors of safety, fatigue, creep)
  • Vibration Analysis (modal, harmonic, random, transient dynamic)
  • Seismic Analysis (equivalent static, short duration explicit simulation)
  • Structural Analysis
  • Thermal Analysis (Conduction, convention, radiation, conjugate heat transfer)
  • Impact & Crash Analysis
  • Non-Linear Analysis
  • Optimisation analysis

Computational Fluid Dynamics (CFD)

Computational Fluid Dynamics, sometimes referred to as flow simulation, is a computer simulation technique that allows the fluid flow around or through any product to be analyzed in detail. CFD allows the fluid mass flow, velocity, density, temperatures, pressure, concentration or any derived fluid property to be calculated at all locations within the flow field. The interaction of the fluid with its solid boundaries, such as fluid-dynamic forces and heat transfer rates, can also be calculated accurately for use in stress analysis.

By using this technique, designers can verify, early in the design cycle, that their products will conform to specifications. This accelerates the product development process. CFD can be used to design mass-flow rates, pressure drops, heat transfer rates, and fluid dynamic forces such as life, drag and pitching movements.

The accuracy and fidelity of modern Computational Fluid Dynamics (CFD) methods has significantly increased the level of design insight available to engineers throughout the design process and reduces exposure to technical risk when developing thermal and fluid based products. The use of CFD in design generally leads to the need for fewer physical prototypes during development and less prototype testing. This reduces time-to-market and cost-to-market.

Application of CFD services

  • Aerodynamics (External Aerodynamics of vehicles)
  • Fluid structure interaction
  • Heattransfer
  • Hydrodynamics
  • Multi-phase Flows
  • Industrail Fluid Dynamics

Hand Calculation

In many applications conventional hand calculations provide the most cost effective and expedient way to assess the performance and conduct design sizing of a mechanical structure. Lantratech's team provides a full spectrum of structural design and stress analysis from conventional hand calculations, through advanced non-linear FEA. Our methods and presentation for preparing hand calculations have been developed over a number of years of working with clients in nuclear, aerospace and civil engineering industries. Our stress hand calculations are generally carried out in MathCAD and can be provided in either electronic and/or printed format.

Mechanical design relies on the ability of design engineers to quantify the performance of each element of a given system. Lantratech's professional team provides access to cost effective engineering analysis and modeling expertise for mechanical design. We provide all types of mechanical engineering calculations and modeling for design, qualification and acceptance purposes.

On/Off Shore Facility

Services_On/Off Shore Facility

Tools We Use

Tools We Use