883 research outputs found
Two-Stroke Ignition Redesign for Yamaha KT100 Engine
Indiana University Purdue University IndianapolisThis report details research and development put into the ignition controller in place for a two- stroke racing engine. The project involved reverse engineering and documenting a transistor-controlled ignition (TCI) module currently used on the Yamaha KT100 engine. A theory of operation as well as design details of the original unit are discussed. Using the knowledge of the engine, the unit is completely rebuilt to allow a programmable spark advance curve to be implemented. The new unit is a direct drop in replacement on the engine. The theory of operation and design details of the new unit are discussed extensively. The new unit adds value to the engine as it allows the user to tune the engine to gain performance under certain conditions.Electrical Engineering Technolog
Electrical control of metallic heavy-metal/ferromagnet interfacial states
Voltage control effects provide an energy-efficient means of tailoring
material properties, especially in highly integrated nanoscale devices.
However, only insulating and semiconducting systems can be controlled so far.
In metallic systems, there is no electric field due to electron screening
effects and thus no such control effect exists. Here we demonstrate that
metallic systems can also be controlled electrically through ionic not
electronic effects. In a Pt/Co structure, the control of the metallic Pt/Co
interface can lead to unprecedented control effects on the magnetic properties
of the entire structure. Consequently, the magnetization and perpendicular
magnetic anisotropy of the Co layer can be independently manipulated to any
desired state, the efficient spin toques can be enhanced about 3.5 times, and
the switching current can be reduced about one order of magnitude. This ability
to control a metallic system may be extended to control other physical
phenomena.Comment: 20 pages, 7 figures, Accepted by Physical Review Applied (2017
Bleaching and dyeing of superfine wool powder/polypropylene blend film
Fibers based regenerated protein draw much attention for recycling discarded protein resources and can produce biodegradable and environmental friendly polymers. In this study, superfine wool powder is blended with polypropylene (PP) to produce wool powder/PP blend film through extrusion and hot-pressing. Hydrogen peroxide is used to bleach the black colored surface of the blend films. The effects of peroxide concentration, bleaching time and powder content on the final whiteness and mechanical properties of the blend films are investigated.The bleached films are dyed with acid red dyes and the dyed color is evaluated using a Computer Color Matching System. Color characters of dyed films, such as L*, a*, b*, ΔE*ab, C*ab and K/S values are measured and analyzed. The study not only reuses discarded wool resources into organic powder, widens the application of superfine wool powder on polymers, but also improves the dyeing properties of PP through the addition of protein content.<br /
Bleaching and dyeing of superfine wool powder/polypropylene blend film
Fibers based regenerated protein draw much attention for recycling discarded protein resources and can produce biodegradable and environmental friendly polymers. In this study, superfine wool powder is blended with polypropylene (PP) to produce wool powder/PP blend film through extrusion and hot-pressing. Hydrogen peroxide is used to bleach the
black colored surface of the blend films. The effects of peroxide concentration, bleaching time and powder content on the final whiteness and mechanical properties of the blend films are investigated.
The bleached films are dyed with acid red dyes and the dyed color is evaluated using a Computer Color Matching System. Color characters of dyed films, such as L*, a*, b*, ΔE*ab,
C*ab and K/S values are measured and analyzed. The study not only reuses discarded wool resources into organic powder, widens the application of superfine wool powder on
polymers, but also improves the dyeing properties of PP through the addition of protein content
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