Tekmaster’s team is multi-disciplined  with respected engineering and technical capabilities. Our engineering  services include:

Engineering Design

  • Products: Full turn-key designs or task-specific design
  • Systems:
    • Structural
    • Mechanical
    • Electrical
    • Electro-Mechanical
  • Equipment & Furnishings: Aircraft and Vehicle Interiors, Test Equipment and Fixtures
  • Systems Integration: Installation and Integration designs for:
    • Structural
    • Mechanical
    • Electrical
    • Electro-Mechanical
    • Electronic Systems
  • Interior Reconfigurations & Standardizations
  • Cargo Systems and Cargo Conversions
  • Design Validation, Modification, Upgrades
  • Design Specifications

Analytical Services

  • Structural Substantiation: Finite Element Analysis (FEA) or Classic Solutions:
    • Static strength, stiffness, and stability
    • Dynamics of structures and mechanisms
    • Thermal environment definition and loading
    • Shock and vibration
  • Heat Transfer/Cooling Analysis: Computer aided or classical solutions
  • Aircraft performance, stability, and control
  • Safety, Reliability, and Maintainability Analyses
  • Shock and vibration
  • Electrical Load Analysis
  • System performance studies and simulations
  • Fatigue and Damage Tolerance Analysis
  • Development of special analytical techniques

Areas of expertise:

  • System Safety and Reliability
  • Aircraft Systems Integration
  • Airframe Structural Engineering
  • Interior Furnishing & Equipment
  • Interior Reconfiguration & Standardization
  • Cargo Systems & Cargo Conversions
  • System & Component Design
  • Project Management & Technical Support
  • Certification & Qualification Support
  • Manufacturing Support
  • Technical Publications

We strongly believe that quality of the design will influence and directly impact the results and system performance. That is why we control design quality through design management that is focused on:

  1. Understanding the relationship between the task (design) and end use environment
  2. Human factors applicable to the task 
  3. Use of State-of-the-Art material and technology which are optimized for the application
  4. Designs for cost effective manufacturing
  5. Designs for Safety, Reliability, and Maintainability
  6. Utilization of advanced computer aided solutions and tools