Wear simulation of electrical contacts subjected to vibrations

Shinde, Darshan U. Lall, Pradeep,

January 2008

Thesis (M.S.)--Auburn University, 2008. / Abstract. Includes bibliographical references (p. 117-123).

Electric connectors Fretting corrosion.

Modeling and fabrication of prosthetic sockets using selective laser sintering

Faustimi, Mario Carneiro

28 August 2008

Not available / text

Electric connectors

Sintering

Lasers in engineering

Modeling and fabrication of prosthetic sockets using selective laser sintering

Faustimi, Mario Carneiro, Crawford, Richard H., Neptune, Richard R.,

January 2004

Thesis (Ph. D.)--University of Texas at Austin, 2004. / Supervisors: Richard H. Crawford and Richard R. Neptune. Vita. Includes bibliographical references.

Mechanical behavior characterization of some new materials for high density interconnect substrates

Rao, Yang

12 1900

No description available.

Electronic packaging

Electric connectors

Electronic contacts

Electronics Materials

Control and Automation of a Heat Shrink Tubing Process

Yousefi Darani, Shahrokh

08 1900

Heat shrink tubing is used to insulate wire conductors, protect wires, and to create cable entry seals in wire harnessing industries. Performing this sensitive process manually is time consuming, the results are strongly dependent on the operator’s expertise, and the process presents safety concerns. Alternatively, automating the process minimizes the operators’ direct interaction, decreases the production cost over the long term, and improves quantitative and qualitative production indicators dramatically. This thesis introduces the automation of a heat shrink tubing prototype machine that benefits the wire harnessing industry. The prototype consists of an instrumented heat chamber on a linear positioning system, and is fitted with two heat guns. The chamber design allows for the directing of hot air from the heat guns onto the wire harness uniformly through radially-distributed channels. The linear positioning system is designed to move the heat chamber along the wire harness as the proper shrinkage temperature level is reached. Heat exposure time as a major factor in the heat shrink tubing process can be governed by controlling the linear speed of the heat chamber. A control unit manages the actuator position continuously by measuring the chamber’s speed and temperature. A model-based design approach is followed to design and test the controller, and MATLAB/Simulink is used as the simulation environment. A programmable logic controller is selected as the controller implementation platform. The control unit performance is examined and its responses follow the simulation results with adequate accuracy.

automation process

heat shrink tubing

MATLAB/Simulink

wire insulation

Electric insulators and insulation.

Electric connectors.

Automation.