Research & Development (R&D)

At Vartis Engineering Pvt. Ltd., our Research & Development function is the driving force behind innovation, efficiency, and customized engineering. We combine industry knowledge with technical expertise to develop next-generation solutions that help our customers stay ahead in a competitive market.

Our R&D Philosophy

We believe that true innovation stems from a deep understanding of both application challenges and manufacturing realities. That’s why our R&D process is collaborative, data-driven, and focused on delivering measurable improvements in quality, cost, performance, and sustainability.

Core Competencies in R&D

Engineering Design & Product Development

  • Advanced 3D CAD modeling and 2D detailing

  • Finite Element Analysis (FEA) and simulation

  • Functional prototyping and pilot production

  • Design Validation Plans (DVP) and reliability testing

Material & Metallurgy Innovation

  • Research on alloy selection and treatment processes

  • Coating and surface treatment advancements

  • Failure analysis and metallurgical investigations

  • Life cycle studies for wear, fatigue, and corrosion

Process Engineering & Tool Development

  • Process flow optimization for machining, casting, and fabrication

  • Custom fixture and tooling design for higher precision and repeatability

  • CNC programming optimization to reduce cycle times

  • Heat treatment studies and parameter fine-tuning

Reverse Engineering & Legacy Product Support

  • Use of 3D scanners and coordinate measuring machines (CMM) for digital recreation of complex components

  • Redesign of obsolete parts with improved features and cost-efficiency

  • Customization to match new industrial standards

  Design for Manufacturability (DFM) & Cost Reduction

  • Close integration between design and production teams to ensure feasibility and scalability

  • Material and process substitution for cost savings

  • Optimization of product architecture to minimize waste and increase yield

Infrastructure & Tools

  • Advanced CAD/CAM and PLM systems (SolidWorks, AutoCAD, MasterCAM, etc.)

  • CNC machines and prototype development cells

  • In-house testing lab with hardness testers, spectrometers, tensile machines, and NDT equipment

  • Simulation software for stress, thermal, and fatigue analysis

  • 3D scanning and CMM tools for accurate design verification