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The behavior of different layer designs of a transparent armor (TA) under large strains been investigated. Impacts of light-armor piercing projectile (7.62x51AP) as influencers were tested and analyzed for predicting the TA response when the layers design angles are adjusted. The experimentation allows visualization of damage behavior and the projectile penetration. The visualization techniques are essential models for understanding the mechanisms of interaction between projectile and targeted material design. Ballistic tests results, high-speed photographs and flash-radiographs from experiments with transparent armor were used to establish LS-DYNA simulation module. Transient non-linear dynamic finite-element has been analyzed using LS-DYNA to simulate and validate the experimentation. The penetrative capability of the projectile was assessed in terms of both the ballistic limit velocity against various layer design angles of the TA and air gaps.

The initiative of this paper is focused on improving the heat dissipation from the pressure wheel of a laser welding assembly in order to achieve a longer period of use. The work examines the effects of different geometrical designs on the thermal performance of pressure wheel assembly during a period of cooling time. Three disc designs were manufactured for testing: Design 1 – a plain wheel, Design 2 – a pierced wheel, and Design 3 – a wheel with ventilating vanes. All of the wheels were made of carbon steel. The transient thermal reaction were compared. The experimental results indicate that the ventilated wheel cools down faster with the convection in the ventilated channels, while the solid plain wheel continues to possess higher temperatures. A comparison among the three different designs indicates that the Design 3 has the best cooling performance.

As a regulated public utility, Consumers Energy constantly struggles to lower operating costs, so that customers can enjoy competitive rates for the natural gas they consume across the state of Michigan. Elimination of line heaters altogether would be one very desirable method of reducing operating cost, unfortunately, Joule Thomson cooling, and the trouble it causes is a fact of life for the natural gas transmission and distribution utilities. Considering this, the operation of line heaters must be optimized so that operating cost can be minimized. Line heaters must be sized appropriately, and controlled so that they are large enough to heat efficiently, but not oversized. Once a heater is installed, the temperature band that it operates within must be set appropriately. This work presents theory that, over time will improve the efficiency of the operation of line heaters within Consumers Energy. Two objectives of this work will be presented.

The primary function of the electrical system for the Lawrence Tech Formula SAE 2001 vehicle was to supply essential engine and vehicle functions. Important secondary functions of the electrical system were real-time data acquisition, display of some of these data to the driver, and transmission of the data to race team members at a sideline location. In addition to data channels depicting vehicle function and health, the data-acquisition (DAC) system included video that duplicated the driver's view, and two-way audio. This paper describes the DAC system and its integration into the vehicle electrical system.

Traction control is an electronic means of reducing the wheel spin caused by the application of excessive power for the valuable grip. Wheel spin can result in loss control of the car, reduce acceleration and cause tire wear. In the front wheel tire the loss grip is experienced as underwater, where the front of the car ‘pushes’ forward, not turning as much as the driver has exposed by turning the tearing. In the rear wheels slip causing oversteer, where the rear of the car swings around, turning much sharper than the driver anticipated. The result of all these problems is that the driver starts loosing control of the vehicle, which is undesirable. With the new design of the Traction Control System, the amount of the wheel slippage is precisely controlled. In racing, this means corner can be taken constantly quicker, with system applying the maximum power possible while the driver remains in total control.

A 1996 Kawasaki ZX-6R motorcycle has been converted from a four-carburetor intake and non-load sensitive ignition to a programmable electronic fuel injection system for performance enhancement. Throttle response and power delivery are greatly affected by proper fuel and spark management. Quick throttle response and smooth power delivery are particularly important in motorcycle road-racing applications. In order to achieve this a programmable engine management system is necessary. Due to turbulent air flow phenomena the fuel requirements of an engine can oscillate throughout the engine speed range. These airflow efficiencies are dependant upon many items including intake size and shape, camshaft design, exhaust design, surface roughness of the intake and exhaust ports, etc. In order to achieve proper air/fuel ratios, relative to rider demand, the current setup is not optimal.