Tetrahedral amorphous carbon : deposition, characterisation and electronic properties

Veerasamy, Vijayen S.

January 1994

No description available.

530.41

Investigation of disintegration and arcing in electric fuses

Brown, Robert Ernest

January 2000

This thesis essentially presents the experimental investigation of the fundamental phenomena of electric fuse element disintegration and its causation and influence on the subsequent fragmentation of the fuse elements when subjected to excessive fault currents. The basis of the study involved experimental observation of disintegration of fuse elements and the analysis of the dynamic responses of current-carrying conductors, which precipitate disintegration. The experimental techniques employed utilised commercially available video cameras to capture images of element disruptions during disintegration of fuse elements subjected to low short-circuit and high overload currents. Specialist experimental image capturing techniques and hardware implementations were developed to enable investigation of element disintegration caused by high short-circuit fault currents. Disintegration phenomena of fuse elements for all fault cases were compared within different time domains, which included specialist techniques to investigate disintegration of elements in sand and against glass substrates. Disintegration phenomena of elements in unconfined media such as air and water also constituted the studies. The studies diverged, finally, into experimental observations of the temporal development of arc initiation and extinction phenomena of fault current limiting of HBC fuses using spectroscopic analysis of the arc light radiation. The range of studies covered have led to new understandings of fundamental current limiting behaviour of HBC and open type fuses which contribute, in a small way, to the knowledge base of the subject and hopefully will be an aid to improved designs and development of new types of electric fuse.

621.31042

The influence of extraneous elements on line intensities in the A.C. spark and the D.C. arc

Berneking, Armour Dale.

January 1952

Call number: LD2668 .T4 1952 B46 / Master of Science

Electric arc.

Electric spark.

Masters theses

Jeanne d'Arc on the 1870s Musical Stage: Jules Barbier and Charles Gounod's Melodrama and Auguste Mermet's Opera

Hurley, Therese

11 July 2013

The purpose of this study is to examine the presentation of Joan of Arc's life in two lyric works, Jules Barbier and Charles Gounod's Jeanne d'Arc (1873) and Auguste Mermet's Jeanne d'Arc (1876), that premiered in Paris following the upheaval of the Franco-Prussian War and Paris Commune. Relying on Parisian journals of the day, I follow two trends: some critics called for a historically-informed presentation of Joan's life and others appealed to retain certain supernatural elements, specifically the Fairy Tree and the Voices, of Joan's story. In addition to these trends, I consider an article printed shortly before the premiere of Mermet's opera and discuss the political and religious implications of the final scene (Charles VII Coronation in Reims or Joan's execution in Rouen) in these two stage works. After an introductory chapter and a chapter tracing the geneses of the melodrama and the opera, the remaining chapters each deal specifically with one of the three above-mentioned lines of inquiry as they relate to Joan of Arc's story. Chapter III discusses historical characters (Charles, duc d'Orléans, King René, and Agnès Sorel), historical music (minuet and Vexilla regis), and music believed to have been sung in the presence of Joan of Arc (Veni Creator Spiritus and Orate pro ea). Chapter IV addresses the continuing presence of legendary, supernatural elements--specifically the Fairy Tree and the Voices--and how these elements have changed in nineteenth-century stage works about Joan. In Chapter V, the difficulty of adapting Joan's life on the stage is examined. A closer look reveals that differing views existed during the 1870s as to exactly what her mission entailed. The two works reflect the changing attitudes on this topic. As a whole, this dissertation offers an examination of two rarely discussed stage works that reveal the political, religious, and musical climate surrounding the figure of Joan of Arc in the 1870s.

Francophone Music Criticism

Joan of Arc

Music history

Health risks associated with exposure to stainless steel arc welding fumes and gases

Chadim, Charles

06 December 1993

Electric arc welding is the most prevalent welding type in industry. It creates two main groups of health hazards for workers; fumes and gases, and radiant energy. Shielded Metal Arc (SMA) welding is the most widely used welding method in industrial plant welding shops. The main chemical health hazards associated with this type of welding are fumes. Fumes are particles formed when the electrode and base metal constituents are vaporized and condensed in the welding area. Potential health problems can be anticipated by measuring the concentration of fumes in the welding space and comparing these data to established exposure standards. If high concentrations of these fumes are present, control measures should be undertaken to reduce the potential toxic effect to workers. Most of the studies have been done on mild (carbon) steel welding where it is generally necessary to monitor only the total amount of fumes. Stainless steel welding differs from carbon steel welding in that it generates considerable fume concentrations of chromium and nickel, which are suspected human carcinogens. The first part of this study evaluated the health risks posed to workers exposed to chromium and nickel fumes from routine stainless steel welding procedures. All the welding was performed in an industrial plant welding shop by one experienced welder. The welded piece was a three-part stainless steel cylinder. The whole period of welding lasted almost three weeks, although the actual welding was done in eleven days during that period. All sampling was performed with filter cassettes connected to personal air pumps. Sampling was performed in welder's breathing zone, in the general area (background sample), and at conveniently located points outside the breathing zone for evaluation of ratios of chromium and nickel to total fumes. The results indicated that at this particular industrial plant, exposure levels did not exceed the Occupational Safety and Health Administration (OSHA) Permissible Exposure Limits (PELs) and the American Conference of Governmental Industrial Hygienists (ACGIH) Threshold Limit Values (TLVs). The results also indicated that it was not necessary to monitor the general area because of very low concentrations of chromium and nickel fumes. Rather, it is suggested that the monitoring focuses on the welder's breathing zone where it is important to sample hexavalent chromium (chromates) because of its proven carcinogenic effect and therefore very low TLV. Also, it was found that if TLV for chromates is not exceeded, then levels of total chromium and nickel are also likely to be below limits. The second part of the study sought to devise a simplified method of monitoring of welding operations. The results suggested that it is not always necessary to sample for all the components (total fumes, total chromium, chromates, and nickel) when estimating worker's exposure. Rather, it is possible to simplify the process by establishing the ratios of fume constituents during a period of heavy welding, thus enabling the industrial hygienist to make a reasonable estimate of exposure that occurs at other times. The estimate can be made by sampling either the main constituent (chromates) or total fumes, and predicting the exposure to remaining constituents of interest from these data. In addition, and in contrast to previous studies, it has been concluded that when fume concentrations are low, a welder's helmet does not provide any additional protection against fumes. Additional protection can be provided with the use of proper local ventilation, such as with a flexible hose, to reduce exposure well below suggested limits. / Graduation date: 1994

Welding -- Health aspects

Shielded metal arc welding

Dynamic thermal tensioning for welding induced distortion control /

Xu, Jun,

January 2006

Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 109-116).

Volcanostratigraphic framework and magmatic evolution of the Oyu Tolgoi porphyry Cu-Au district, South Mongolia

Wainwright, Alan John

05 1900

The super-giant Oyu Tolgoi porphyry copper-gold deposits in the South Gobi desert, Mongolia, consist of multiple discrete porphyry centers aligned within a north-northeast trending, >6.5 km long, arc-transverse mineralized corridor. The porphyries are linked to a tectono-magmatic event at ~372 Ma within a Devonian to Carboniferous volcanic arc, and U-Pb (zircon) geochronology records magmatic activity from ~390 Ma to ~320 Ma. The Oyu Tolgoi district underwent at least three discrete periods of syn- to post-mineral shortening and there is evidence for at least three unconformities within the Paleozoic sequence. Although the deposits were formed in an active orogenic environment characterized by rapid uplift, their preservation is a reflection of climactic effects as well insulation from erosion by rapid burial under mass-wasted and pyroclastic material in the volcaniclastic apron of late-mineral dacitic volcanoes. The porphyry copper-gold deposits are spatially and temporally related to medium- to high-K calc-alkaline quartz monzodiorite (~372 Ma) and granodiorite (~366 Ma) intrusive phases that comprise the Late Devonian Oyu Tolgoi Igneous Complex (OTIC). Adakite-like wholerock compositions as well as zircon grains with high CeN/CeN*, EuN/EuN* and Yb/Gd in the sample populations from syn- and late-mineral porphyry intrusions are different from younger intrusions that are not related to porphyry Cu-Au deposit formation. Moreover, mixed zircon populations within OTIC intrusions indicate that efficient assimilation of material from different host rocks by a convecting magma chamber occurred. Mafic to intermediate volcanic units evolved from tholeiitic to calc-alkaline compositions, which is interpreted to be a reflection of marine arc maturation and thickening. Felsic rock suites are dominantly high-K calc-alkaline, regardless of age. Nd-isotopic geochemistry from all suites is consistent with magma derivation from depleted mantle in an intra-oceanic volcanic arc and lead isotopic compositions indicate that the sulfides in the porphyry Cu-Au deposits are genetically linked to the Late Devonian magmas. Magma mixing, adakite-like magmatism and rapid uplift and erosion in a juvenile marine arc setting differentiate the ore-stage geologic environment at Oyu Tolgoi from other settings in active and fossil volcanic arcs.

Porphyry

Copper-gold

Mongolia

Island arc

Volcanism

Dependence of arc interrupting capability on spatial distribution of airflow velocity in air-blast flat-type quenching chamber

Yokomizu, Yasunobu, Matsumura, Toshiro, Matsuda, Akiji, Ohno, Hideyuki

01 1900

No description available.

Airflow

arc discharges

correlation

interrupting capability

vortex

Double-Sided Arc Welding of AA5182 Sheet in the Lap-Joint Configuration

Joshi, Nandan

January 2010

Automakers are increasingly using aluminum for structural applications in order to reduce vehicle weight and improve fuel efficiency. However, aluminum bodied cars have largely been confined to lower-volume, niche markets due in part to the number of challenges associated with welding of aluminum in comparison with steel. Therefore, a need exists for new joining processes which can produce high-quality welds in thin aluminum sheet at high production rates and low cost. The recently invented double-sided arc welding (DSAW) process is one such joining process. It has been shown to be capable of producing high quality butt-joint configuration welds in thin aluminum sheet and thick steel plate. In DSAW, an arc is initiated across two torches that are mounted on either side of the workpiece, allowing it to be welded from both sides. The objective of this research was to determine the feasibility and merits of using the DSAW process to produce seam and spot welds in thin aluminum sheet in the lap-joint configuration. The double-sided arc welding (DSAW) apparatus used in the present study was powered by a single square wave alternating current variable polarity power supply to produce an arc across two liquid cooled, plasma arc welding torches. This equipment was used to produce a series of conduction-mode DSAW seam and spot welds in 1 mm thick and 1.5 mm thick AA5182-O and AA6111 sheet in the lap-joint configuration. Metallographic analysis was used to characterize the microstructure of the welds, while microhardness and tensile tests were used to characterize the mechanical properties. Since hydrogen is easily absorbed by molten aluminum, all weld specimens must be cleaned prior to welding in order to produce high quality, pore-free welds. Although previous studies had shown that the specimens could be sufficiently cleaned by degreasing and wire brushing them prior to welding, this cleaning procedure was not found to be adequate for the specimens used in this study and a more aggressive cleaning technique was required. A number of different specimen pre-cleaning techniques were examined, and a combination of degreasing, deoxidizing, and manual wire brushing was found to produce the least amount of porosity in bead-on-plate welds produced in 1.5 mm thick AA5182-O sheet. Further reductions in porosity were accomplished by redesigning the shielding gas cup of the top Thermal Arc torch to promote more laminar gas flow and generate a more evenly distributed shielding gas plume. Using the redesigned shielding gas cup, a shielding gas flow rate of 10 lpm was found to provide good coverage of the weld pool and produce virtually pore-free welds. The feasibility of using the DSAW process to produce spot welds in 1 mm thick AA5182-O sheet in the lap-joint configuration was examined by producing a series of spot welds over a range of welding powers and weld times. Weld nuggets were produced using a welding current as low as 50 A with a cycle time of one second. However, all of the welds exhibited a pinhole at the centre of the nugget which penetrated through the entire thickness of the specimen, regardless of welding current and cycle time used. Solidification shrinkage porosity and crater cracking were also observed near the centerline of the welds. Hydrogen gas porosity and oxide tails were also observed in the welds. These defects were found to decrease the strength and quality of the spot welds made between 1 mm thick AA5182-O sheets in the lap-joint configuration. A series of welds were made to determine if the DSAW process could be used to produce seam welds in 1 mm thick AA5182-O sheet in the lap-joint configuration. Visually acceptable, crack-free welds were produced using welding powers ranging from 2.0 kW to 5.1 kW, at welding speeds between 10 mm/s and 70 mm/s. Welds produced within this range of welding conditions were found to possess excellent cathodic cleaning on both sides of the workpiece, a smooth weld bead, and a columnar-to-equiaxed grain transition. However, transverse cross-sections of the specimens revealed varying amounts of oxide entrainment in the weld metal which was seen most frequently as unbroken interface oxide sheets or tails at the fusion boundaries. Often times, small clusters of porosity were found to nucleate along the oxide tails. This suggested that there was insufficient fluid flow in the weld to disrupt the pre-existing oxide sheets at the interface between the sheets. Careful specimen pre-cleaning using a combination of degreasing, deoxidizing, and manual stainless steel wire brushing was found to reduce, but not eliminate the oxide tails. Microhardness testing revealed that the microhardness was relatively consistent across the weld metal, heat-affected zone (HAZ), and base metal. In a series of tensile-shear tests, all of the welded specimens were observed to fail in the weld metal, within 1 mm of the fusion boundary. Another series of seam welds were produced between 1 mm thick AA6111 and 1 mm thick AA5182 sheets in the lap-joint configuration to explore the nature and intensity of fluid flow in the molten weld pool responsible for breaking oxide tails. The difference in magnesium content between the two alloys produces a different microstructure and response to chemical etching, thereby revealing any effects of fluid motion in the weld pool. Relatively weak buoyancy driven fluid flow was observed when the AA6111 sheet was placed on top of the AA5182 sheet, and some minor stirring was seen between the two sheets. When the slightly less dense AA5182 sheet was placed above the AA6111 sheet, very little fluid flow was observed and the two alloys remained unmixed. Overall, the weld pool formed during DSAW was found to be very quiescent. This suggests that the normally strong Marangoni and Lorentz force induced flow seen in other arc welding processes does not occur in the double-sided arc weld pool. This leaves only a very weak buoyancy driven fluid flow which is incapable of disrupting the pre-existing oxide at the interface between the sheets immediately adjacent to the fusion zone boundary. Overall the DSAW process was found to be capable of producing visually acceptable lap-joint configuration seam welds in AA5182-O sheet over a wide range of welding speeds and welding powers, provided that the pre-existing oxide and any other surface contaminants were chemically removed prior to welding.

DSAW

Arc Welding

Aluminum

Mechanical Engineering

Study the Preparation of Endohedral Metallofullerenes by Direct Current Arc Discharge Method

Liu, Nai-Lun

07 August 2006

Endohedral metallofullerenes have special structures, therefore we are interested in. High-temperature laser vaporization method and direct current arc discharge method, which are the two methods for preparing endohedral metallofullerenes. Here we study the preparation of endohedral metallofullerenes by direct current arc discharge method, which uses two graphite rods as electrode and vaporizes the one which infill metal complex in high temperature and low helium gas pressure environment. We study in some metal complexes such as Mo(C5Ph5)2, Fe(CO)9, Ag and Au. After reaction, we collect the soot produced in reaction and choose different solvents to separate the products from it with Soxhlet extraction.

Direct current arc discharge method

Endohedral metallofullerenes