Â鶹´«Ã½

Aeronautics Instrumentation Lab

Welcome to the Aeronautics Instrumentation Laboratory equipment page. Below you will find some of the equipment incorporated into our aerospace and aeronautics instruction.

VFT2010 Basic Vibration Fundamentals Training

The Vibration Fundamentals Training System (VFT) is an integrated educational package for teaching/learning the fundamental principles of mechanical vibration as well as engineering mechanics. It provides both a comprehensive hands-on experimental device and an instrumentation package to enhance student understanding of vibration theory. Students can perform virtual experiments using the vibration simulation software and then verify the results with actual experiments thereby reinforcing the learning of difficult principles.

photo aeronautics instrumentation lab VFT2010

Features

  • Fully integrated turn-key package consisting of comprehensive experimental device, wireless sensors, data acquisition instrumentation, analysis software, course curriculum, exercise book, and simulation software for virtual experimentation
  • User friendly, modular, and compact bench-top device for performing controlled experiments
  • Experimental setup for single and two-degrees of freedom spring-mass system (with and without damping)
  • One and two-degrees of freedom torsional vibration (with and without damping)
  • Vibration control experiments with viscoelastic damping and tuned-mass-damper
  • Full experimental setup for beams with different boundary conditions, material, geometry, and length to understand effects on natural frequency and mode shapes
  • User friendly software with pre-defined experiments integrated with data acquisition and data analysis
  • Virtual experiment capabilities to learn the effects of parameters for each type of test configuration

 

MFS2010 Basic Machinery Fault Simulator System

Learning Machinery Diagnosis Capabilities

To gain an in-depth understanding of different vibration signatures, controlled experiments on a device that emulates real world machinery are needed. While analysis of a single machinery fault may be beneficial, there are many occasions when the analysis of the interaction between dynamic stiffness, resonance, and speed is essential in order to gain an understanding of real world vibration spectra. With the MFS, the expertise required to diagnose industrial machinery problems in well controlled experiments can be developed and enhanced. Applying this to a real-world situation, a plant running at full production, it is virtually impractical to gain an understanding of the kinetics and dynamics of machinery without adversely affecting production and profits: The MFS enables offline training and experimentation which in turn would minimize production downtime.

photo MFS2010  basic machinery fault simulator system

Features

  • Simple methods for introducing controlled and calibrated faults.
  • Study the vibration spectra of common faults, learn fault signatures and validate rules provided in training courses.
  • Bench top machine for hands-on training and skill sharpening.
  • Learn machine condition monitoring and predictive maintenance.
  • Manual with exercises for individually paced study.
  • Learn resonance, variable speed, gearbox, and belt drive diagnostics.
  • Learn to determine vibration transmission path and perform root-cause analysis.
  • Study correlation among vibration, motor current, and noise spectra.

 

Internal Combustion Engine Simulator

The Internal Combustion Engine Simulator (ICES) is designed to demonstrate the operating principles of a typical internal combustion engine. The ICES includes realistic pistons, connecting rod, cams, crankshaft, timing belt, timing of input/exhaust valves, bearings, and the engine block similar to a typical IC engine. The device also includes a flywheel and a planetary gearbox for studying power transmission system. The bench-top system has a spacious modular design featuring versatility, operational simplicity, and robustness.

Tool for Learning IC Engine Mechanism

To gain an in-depth understanding of different mechanisms inside the IC engine and transmission system, it is crucial to perform controlled experiments on a device that emulates real world IC engine. While demonstration of an IC engine mechanism is very beneficial for students, there are many occasions when the analysis of various configurations in the mechanism is essential in order to gain an understanding of kinematics principles used in IC engines.