Mechanical

We provide high quality concept/design solutions to maximize the product's overall effectiveness. Our designers combine the insights and information gathered throughout the brainstorming and research phase and transforms these inputs into technical sketches. The sketches illustrate and explain the internal working mechanism of the product and how different elements and user interface components fit together. The team carefully then defines the scenarios for each major interaction we believe end-users will have or should have with the product.

Infotech employs all the latest computer-aided design and engineering tools to develop products realizing innovative design solutions early in the product development phase, optimizing the design process.

We are abreast and adept with the latest CAD tools such as Unigraphics, Catia, ProE, and AutoCad permitting us to offer comprehensive CAD design solutions. We have established processes to rapidly coming up to speed on customer's in-house designing platforms to ensure we speak the customer's design language. Geometric Dimensioning & Tolerancing (GD&T) is utilized when necessary to improve communication between customers and suppliers and drive consistency through the design, manufacturing and inspection processes. Our mechanical engineering team typically employs Tolerance Stack-Up (TSU) to analyze the cumulative effect of part tolerances to prove designs and reduce product costs. Production drawings are generated per ISO, DIN, BIS, ASME, ANSI, JIS and client specific standards.

Our Clients have benefited from our extensive detail engineering capabilities that include conversion of 2D legacy prints into 3D parametric models, CAD data translation, providing parametric 2D drawings suited to customer preferences and standards and using 3D models to drive necessary drawing changes.

Our clients use our proven expertise in advanced engineering analysis to address the most intricate engineering challenges. We use the latest tools and methodologies to optimize product design in terms of cost and weight reduction, life prediction, system performance evaluation and failure investigation.

Through FEA we determine and address critical design issues, such as fatigue life, strength and material selection. Utilizing virtual techniques such as 3D simulations of robotic and human operations, we test pre-production models to assure "manufacturability". We have credentials of having delivered productivity gains and improved bottom line to our clients.

Our mechanical engineers are trained and experienced to identify inefficiencies in current designs in the initial phases of product development and to continuously validate designs thru the product development lifecycle via the applicable analysis techniques. For instance, Structural and thermal aspects of the design are evaluated by transporting the 3D geometry directly to NASTRAN and SINDA/TRASYS thereby gaining valuable engineering feedback early in the design phase. This allows saving valuable resources and in launching robust products much faster to the market:

• Thermal and Stress Analysis
• Implicit/Explicit Dynamic Analysis
• Crash and Impact analysis
• Fatigue and durability analysis
• Harmonic analysis
• Kinematics
• Dynamics/Rotor dynamics
• Buckling/Containment
• Engines and Systems Performance
• Acoustics and Noise Control
• Heat Transfer and Cooling
• Computational Fluid Dynamics (CFD) analysis
• Flow Systems Simulation
• Combustion Systems
• Structural Analysis - Linear / Non-linear
• Modal & Frequency

Finite Element Analysis Techniques Include:

• Failure Mode Effects Analysis (FMEA)
• Linear & Non-linear Statics
• Frequency Response
• Normal Mode Dynamics
• Thermally Induced Stress
• Load Path Characterization
• Weld Fatigue Life
• Mechanism Simulations & Animation
• Bolted Joint Study
• Flexible/Rigid Body Motion
• Vehicle Dynamics

Some of our current engineering tools include:

• Pro/ENGINEER®
• SDRC I-DEAS®
• Unigraphics®
• CATIA® V4 & V5
• Abaqus®
• eMPower®
• SolidWorks®
• AutoCAD®
• Ansys®
• LSDYNA®
• Hypermesh®
• Moldflow®