Global ETD Search

131	Investigation of Mold Design and Process Parameters in Microinjection Molding to Fabricate a Deformable Membrane Mirror El-Taleb, Ahmed Salem 26 December 2013 (has links) No description available. Industrial Engineering Polymers Microinjection molding mold design microchannel deformable membrane mirror process parameters
132	Simulation of Thermal Transport in a Nanocomposite Blow Mold Garg, Deepak January 2009 (has links) No description available. Mechanical Engineering Plastics Polymers Blow Mold Nanocomposite Polymer processing Viscoelastic flow Thermal design
133	MULTIPLE CRITERIA OPTIMIZATION STUDIES IN REACTIVE IN-MOLD COATING Cabrera Rios, Mauricio 02 July 2002 (has links) No description available. In-Mold Coating Multiple Criteria Optimization Artificial Neural Networks Data Envelopment Analysis Reactive Polymer Processing
134	Microfluidics of DNA Suspensions Cortright, Emily Celia 26 June 2009 (has links) No description available. Engineering Industrial Engineering DNA DNA suspensions carbon black in-mold coating IMC
135	Evaluation of Methods to Control Mold on Hardwood Pallets Blount, Thomas Richard 14 June 2013 (has links) The objectives of this project were:<br />1.ï¿½ï¿½ï¿½ï¿½To compare the drying cost and drying time for oak and poplar pallets for the following mold mitigation strategies for hardwood pallets: air drying, forced air drying (fan shed), kiln drying to 25% moisture content and chemical treatment, and<br />2.ï¿½ï¿½ï¿½ï¿½Develop and evaluate a procedure for preventing and controlling mold growth on heat treated hardwood pallets<br />Twenty red oak pallets and twenty yellow-poplar pallets were tested for each drying method to compare costs and to determine drying times. ï¿½Additional pallets were obtained to conduct a more thorough air drying procedure. ï¿½Drying data was extrapolated to allow estimates of the drying time from green (83% moisture content for poplar and 64% moisture content for oak) to 25%. ï¿½<br />After the pallets reached the desired 25% moisture content, they were placed in a 40ï¿½" enclosed trailer, inoculated with mold (Aspergillus, Stachybotrys, and Penicillium) and were left undisturbed for a period of 14 days. ï¿½After the 14 day incubation period, the pallets were inspected for mold using the ASTM D-4445 Standard Test Method for Fungicides for Controlling Sapstain and Mold on Unseasoned Lumber. ï¿½<br />A comparison of drying costs was then conducted to determine which method was the most cost efficient based on the data obtained in this study. ï¿½The cost to treat the pallets with each treatment was calculated including electrical cost, labor, and tax values. ï¿½In addition to the cost comparison, a Net Present Value (NPV) was calculated to determine which method produced the best outcome over a longer period of time.<br />Two heat treatment and drying schedules were then developed to meet both IPPC-ISPM #15 requirements and achieve the desired 25% moisture content with minimal degrade. ï¿½This was accomplished by testing several HT/drying schedules on green yellow-poplar and white oak pallets until the pallets met the criteria for being heat treated and had minimal degrade. ï¿½The schedules developed are a modified oak HT/KD schedule that required 30 hours to complete and a modified poplar HT/KD schedule that required 16 hours to complete.<br />The results demonstrated that that mold would not grow on the pallets stored in an enclosed container when the dew point is not reached. Air-drying pallets, chemical application in conjunction with air-drying pallets, fan shed drying pallets and kiln drying pallets to a 19-24% moisture content was demonstrated to prevent mold growth on oak and yellow poplar pallets. Estimates for the time required to dry yellow-poplar and oak pallets to 19% and 25% moisture content were developed for air-drying, forced air-drying and kiln drying for the conditions experienced in Blacksburg, VA between 7/30/2008 and 11/10/2008. Air-drying pallets was found to have the lowest daily operational cost but not the lowest total drying cost. ï¿½Fan shed drying had the lowest drying cost to achieve 25% moisture content. ï¿½Kiln drying was the most expensive daily and total cost, but yielded the fastest method of drying pallets to 25% moisture content. A NPV cost comparison showed that over a 3 year (36 month) time period, fan shed drying is the most cost effective method of drying pallets based on the values used in this study. Given the environmental conditions experienced between 7/30/2008 and 11/10/2008, no mold grew on the air-dried, fan shed, and kiln dried pallets during the drying process. <br /> / Master of Science Wood Pallets Mold Air Drying Kiln Drying Fan Shed Chemical Dipping Heat Treatment.
136	Automatic design and optimisation of thermoformed thin-walled structures Ugail, Hassan, Wilson, M.J. January 2004 (has links) Yes / Here the design and functional optimisation of thermoformed thin-walled structures made from plastics is considered. Such objects are created in great numbers especially in the food packaging industry. In fact these objects are produced in such vast numbers each year, that one important task in the design of these objects is the minimisation of the amount of plastic used, subject to functional constraints. In this paper a procedure for achieving this is described, which involves the automatic optimisation of the mold shape taking into account the strength of the final object and its thickness distribution, thus reducing the need to perform inefficient and expensive `trial and error¿ experimentation using physical prototypes. An efficient technique for parameterising geometry is utilised here, enabling to create a wide variety of possible mold shapes on which appropriate analysis can be performed. The results of the analysis are used within an automatic optimisation routine enabling to find a design which satisfies user requirements. Thus, the paper describes a rational means for the automatic optimal design of composite thermoformed thin-walled structures. Design optimisation Thermoformed thin-walled structures Plastics Minimization of materials Parameterising geometry Mold shapes
137	Fungal identification using nanopore sequencing of the Internal Transcribed Spacer region Billström, Madelene January 2024 (has links) Fungals are opportunistic pathogens that can cause invasive infections primarily among immunocompromised individuals. Traditionally, fungi have been identified by culturing on agar plates and using morphological criteria. Molecular detection methods such as polymerase chain reaction (PCR) and sequencing is faster and superior at identifying fungi at species level compared to culturing and microscopic examination. The aim of this project was to identify fungi at the species level by sequencing the internal transcribed spacer (ITS) region of different control strains and patient samples. This was accomplished using a nested PCR followed by Nanopore sequencing. Two different workflows using different databases were created. One workflow created a consensus sequence which was followed by a BLAST search. The other workflow used an Emu program and mapped reads against the UNITE database. The result was compared to identification previously achieved. Amplification was successful in 28 out of 30 positive samples. The BLAST workflow managed to identify nine out of eleven samples, but was difficult to interpret. The Emu workflow was only concordant with previous identification in 20 out of 28 species in sequenced samples and failed to identify 4 previously identified fungi at the species level, but was easier to interpret and could identify several species from a mixed culture. Amplifying and sequencing of the ITS region can in several cases provide accurate identification, but the method of extraction, choice of DNA polymerase and choice of database need to be considered for successful amplification and accurate species identification before implementation as a diagnostic method. ITS yeast mold PCR molecular diagnostics Biomedical Laboratory Science/Technology
138	Characterization and management of major fungal diseases and mycotoxin contamination of grain sorghum in the mid-Atlantic U.S. Acharya, Bhupendra 11 June 2019 (has links) Industry demand for local sources of grain for animal feed has increased sorghum production in the mid-Atlantic region of the U.S. Sorghum anthracnose (causal agent Colletotrichum sublineola) and the grain mold complex, which includes mycotoxin-producing Fusarium spp., limit the yield and quality of grain sorghum in humid climates worldwide. A majority of U.S. grain sorghum production is in arid regions, and management strategies have not been developed for the mid-Atlantic U.S. where warm, wet conditions favor disease. The specific objectives of this research were to: (1) determine the effectiveness of fungicides and their application timing for the management of sorghum foliar anthracnose, (2) compare five grain sorghum hybrids for their susceptibility to foliar anthracnose, grain mold and mycotoxin contamination under field conditions, (3) integrate host resistance and fungicide application to manage anthracnose and grain mold, and (4) identify Fusarium spp. associated with grain mold and mycotoxin contamination of sorghum in the mid-Atlantic U.S. For Objective 1, it was determined that a single application of pyraclostrobin-containing fungicide no later than flowering reduced anthrancose, protected yield and maximized farm income. Objective 2 focused on sorghum hybrid selection as a disease management tactic, and it was determined that hybrids with high yield potential and moderate disease resistance should be selected for mid-Atlantic sorghum production in order to maximize grain yield and quality while minimizing the need for fungicide inputs. Objective 3 focused on integrated management and demonstrated that under moderate disease pressure, a high-yielding susceptible hybrid required a single application of pyraclostrobin-based fungicide to minimize fungal diseases and maintain acceptable yields, whereas under high disease pressure it was necessary to integrate hybrid resistance and judicous applications of fungicides. The aim of Objective 4 was to characterize potential causal agents of mycotoxin contamination in mid-Atlantic sorghum, and thirteen phylogenetically distinct Fusarium species (F. lacertarum, F. graminearum. F. armeniacum, F. proliferatum, F. fujikuroi, F. verticillioides, F. thapsinum and several in Fusarium incarnatum-equiseti species complex) were found to be associated with grain mold and fumonisin and/or deoxynivalenol contamination of sorghum grain. This work has provided insights into the impacts of fungal diseases on grain sorghum yield and quality in the mid-Atlantic and has aided in development of best management practices for the region. / Doctor of Philosophy / Sorghum is grown in tropics, sub-tropics and semi-arid region worldwide for food, feed, forage and fuel. Sorghum acreage in the mid-Atlantic is increasing due the demand for locally grown grain by poultry and swine industries. During the growing season, warm and humid conditions are common in the southeastern and mid-Atlantic states favoring fungal diseases development that reduce the grain yield and quality. Anthracnose and grain mold, which includes toxic mycotoxin-producing Fusarium species, are the two major constraints in sorghum production in the region. However, management alternatives have not been developed. The main goal of this research was to develop management strategies to protect yield and maximize farm profitability by controlling anthracnose and grain mold of sorghum using chemicals and/or host resistance. The specific objectives were to: (1) determine the effectiveness of fungicides and their application timing for the management of sorghum foliar anthracnose, (2) compare grain sorghum hybrids for their susceptibility to foliar anthracnose, grain mold and mycotoxin contamination under field conditions, (3) assess the value of integrating host resistance and judicious use of fungicides to manage sorghum anthracnose and grain mold, and (4) identify Fusarium spp. associated with grain mold and mycotoxin contamination of sorghum in the mid-Atlantic U.S. Results from this research indicate that a single application of pyraclostrobin-containing fungicides no later than flowering reduces anthrancose, protects yield, and increases farm income. Sorghum hybrids varied in susceptibility to anthrancnose and grain mold, and planting a moderately resistant hybrid and applying a fungicide under high disease risk conditions provided the greatest return on investment. Both fumonisin and deoxynivalenol were frequently detected from sorghum grain, and mycotoxin contamination was associated with 13 different Fusarium species from three distinct species complexes. Based on the results of this work, best management practices for minimizing sorghum disease losses were developed for the mid-Atlantic region. Grain sorghum Sorghum bicolor anthracnose Colletotrichum sublineola grain mold mycotoxins phylogenetic analysis Fusarium spp.
139	Primena metoda inverznog inženjerstva u cilju pronalaženja graničnih uslova pri livenju u peščanim kalupima / Application of inverse engineering methods for estimation of boundary conditions in sand casting process Kovačević Lazar 01 October 2015 (has links) <p>U disertaciji je razvijena nova eksperimentalna postavka za merenje<br />graničnih uslova pri livenju u peščanim kalupima. Utvrđeno je da se<br />uvođenjem pojma prividne toplotne difuzivnosti materijala kalupa<br />može poništiti greška pozicioniranja termoparova i time smanjiti<br />greška procene graničnih uslova. Dodatno, pokazano je da proces<br />izdvajanja intermetalnih jedinjenja tokom procesa očvršćavanja<br />kalupa može uticati na vrednosti graničnih uslova. Razvijena je i<br />nova empirijska korelaciona funkcija kojom se može opisati promena<br />vrednosti koeficijenta prenosa toplote između kalupa i odlivka.</p> / <p>In this study a new experimental technique and apparatus for estimation of<br />boundary conditions in sand casting process were developed. It is shown<br />that thermocouple positioning errors can be nullified by introducing a concept<br />of apparent heat diffusivity of the mold material. In this way, total error of the<br />heat transfer estimation can be reduced. Additionally, it was found that the<br />process of precipitation of intermetallic compounds can influence the value of<br />achieved metal-mold heat transfer. A novel empirical correlation function is<br />proposed. This function has the ability to accurately describe the change in<br />interfacial heat transfer with the casting surface temperature.</p>
140	An Evaluation of Mold in Public Schools in the City of Richmond, VA Asante-Ansong, Stephen 01 January 2007 (has links) Forty-three (43) schools in the City of Richmond were used for this study. The rooms in these schools that were selected for testing were those rooms in which complaints about air quality were made by school staff. Tests were done to find out the counts of the different mold species present in these schools. Air-O-Cell (AOC) samples were taken in all schools, swab samples were taken in a few and in the rest biotapes were used. Samples that were taken were analyzed and interpreted at AmeriSci Laboratories, an accredited industrial hygiene laboratory. Documentation was done for the sampling methods. Statistical analysis was run on the data received. Tables of results were made, discussions done and conclusions drawn from the laboratory results.The null hypothesis for this study is that "Total inside mold counts are not elevated above the total outside mold counts in Richmond Public Schools" and the alternative hypothesis is that "Total inside mold counts are elevated above the total outside mold counts in Richmond Public Schools". Biodiversity of molds in the indoor environment should be equal to biodiversity of molds in the outdoor environment for each of the classrooms sampled. Also, Total indoor mold counts exceeding 1000 counts/m3 means that particular school could be faced with a mold problem. In conclusion, it was found out that 58% of the schools sampled could be faced with mold problems, thereby rejecting the null hypothesis, and 42% had no mold problems at all, supporting the null hypothesis. Cladosporium was the most dominant mold genus in the schools and the school with the highest total count of molds in the rooms sampled was Maggie Walker School. Recommendations were then made to reduce the abundance of molds in Richmond Public Schools. remediation Ascospores Aspergillus Caldosporium AmeriSci Laboratories indoor air quality Virginia mold Richmond Environmental Sciences Physical Sciences and Mathematics

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