Estudo da aderência e formação de biofilme de Candida spp. em cateter urinário confeccionado em látex siliconizado e silicone total / Study of attachment and biofilm formation of Candida spp. onto urinay catheter made of siliconized latex and total silicon

Gabriella de Souza Bettio

24 August 2010

As infecções causadas por leveduras representam um grave problema em Saúde Pública. O objetivo desta pesquisa é o estudo aderência de Candida spp. (C. albicans ATCC18804, C. albicans SC5314, C. albicans cepa de campo, C. glabrata ATCC2001) sobre cateter urinário de Látex siliconizado (LS) e Silicone total (ST); avaliação da sensibilidade ao M-EDTA® dos biofilmes formados e quantificação dos genes ALS1 e ALS3 expressos por células sésseis de C. albicans. Os biofilmes de Candida spp. foram produzidos sobre cateteres urinários (LS e ST) segmentados em 1,0 cm de comprimento e separadamente introduzidos em poços de placas de poliestireno, sendo incubados a 35±1°C em contato com as suspensões de leveduras por 6, 24 e 48 e 72 horas. Os segmentos de cateter foram examinados por MEV, por cultura microbiológica, para avaliação da viabilidade celular e redução do sal de tetrazólio (XTT), para medir a atividade metabólica das células em biofilme. A sensibilidade das células sésseis ao M-EDTA® foi determinada após a exposição dos biofilmes ao produto; a expressão dos genes ALS1 e ALS3 de C. albicans SC5314 foi analisada por reação em cadeia de polimerase quantitativo (qPCR) e o resultado da recuperação de células viáveis de biofilme de Candida spp. foi expresso em log média ± desvio-padrão. Do biofilme de C. albicans ATCC18804 formado sobre LS, a recuperação foi de 4,48±2,52 e sobre ST; 4,76±1,62. A média de recuperação do biofilme de C. albicans SC5314 sobre LS foi de 4,35±0,39 e sobre ST, de 4,21±0,22. Para C. albicans cepa de campo, a média no LS foi 5,15±0,18 e no ST; 4,79±0,17. Do biofilme de C. glabrata ATCC2001 formado sobre o LS, a recuperação média foi de 4,69±0,19 e sobre ST, de 4,75±0,68. A atividade metabólica das células em biofilme foi expressa em valores de absorbância. Células de C. albicans ATCC18804 aderidas ao LS apresentaram atividade de 0,070±0,06 e sobre ST; 0,0681±0,06. A atividade metabólica do biofilme de C. albicans SC5314 sobre o LS foi de 0,0622±0,05 e sobre ST; 0,0785±0,05. Das células de C. albicans cepa de campo aderidas ao LS detectou-se atividade de 0,1064±0,01 e sobre ST, de 0,904±0,03. Células de C. glabrata ATCC2001 aderidas ao LS apresentaram uma atividade de 0,0785±0,04 e sobre ST; 0,0755±0,03. A observação ao MEV mostrou células leveduriformes de C. albicans SC5314 aderidas ao LS e ao ST formando monocamadas. Candida albicans ATCC18804, C. albicans cepa de campo e C. glabrata ATCC2001 formaram monocamadas de células leveduriformes e produziram filamentos sobre a superfície LS e ST, sugerindo uma estrutura tridimensional do biofilme. A exposição ao M-EDTA® dos biofilmes de C. albicans ATCC18804, C. albicans SC5314, C. albicans cepa de campo e C. glabrata ATCC2001 mostrou que os mesmo foram sensíveis à ação do produto. Após o crescimento de C. albicans SC5314 em biofilme, não houve detecção de expressão dos genes ALS1 e ALS3. Em conclusão, todas as espécies de Candida formaram biofilme sobre os biomateriais. Os biofilmes foram sensíveis a ação do M-EDTA® e C. albicans SC5314 não expressou os genes ALS1 e ALS3. / Infections caused by yeasts represent a serious problem in Public Health. The aim of this research was to study the Candida spp. (C. albicans ATCC18804, C. albicans SC5314, C. albicans wild type, C. glabrata ATCC2001) attachment onto urinary catheters made of Siliconized latex (LS) and Total silicon (ST); evaluating the susceptibility of biofilms to M-EDTA® and quantifying genes ALS1 and AL3 expressed by sessile cells of C. albicans. The Candida spp. biofilms were produced over the surface of urinary catheters (LS and ST). The catheters were cut in 1.0cm in length, introduced in wells of polystyrene plates and incubated at 35±1°C in contact with yeasts suspensions during 6, 24, 48 and 72 hours. The catheter samples were examined by SEM, by microbiology culture to evaluate the viable cells and reduction of tetrazolium salt (XTT) to measure the metabolic activity of Candida spp. cells into biofilms. The sensitivity of sessile cells to M-EDTA® was determinated after the exposition of biofilms to the product. The C. albicans SC5314 expression of ALS1 and ALS3 genes was analyzed by quantitative polymerase chain reaction (qPCR). The results of Candida spp. viable cells recovery were determined in log average ± standard deviation. From C. albicans ATCC18804 biofilm cells formed onto LS, the recovery was 4.48±2.52 e onto ST; 4.76±1.62. The average of recovery from C. albicans SC5314 biofilm formed onto LS was 4.35±0.39 and onto ST; 4.21±0.22. For C. albicans wild type, the recovery onto LS was 5.15±0.18 and above ST; 4.79±0.17. C. glabrata ATCC2001 biofilm formed onto LS, the medium was 4.69±0.19 and onto ST; 4.75±0.68. The metabolic activity from cells into biofilms was determined in absorbance values. C. albicans ATCC18804 cells attachment on LS had an activity of 0.070±0.06 and on ST; 0.0681±0.06. The metabolic activity of C. albicans SC5314 biofilm formed onto LS was 0.0622±0.05 and onto ST; 0.0785±0.05. From C. albicans wild type attached onto LS, the activity detected was 0.1064±0.01 and on ST; 0.904±0.03. C. glabrata ATCC2001 cells attached on LS had an activity of 0.0785±0.04 and on ST; 0.0755±0.03. The SEM observations showed C. albicans SC5314 yeast cells attached on LS and ST forming a monolayer. C. albicans ATCC18804, C. albicans wild type and C. glabrata ATCC2001 formed yeast monolayer and produced filaments over the surface of LS and ST, suggesting the three-dimensional structure of biofilm. The M-EDTA® exposition of C. albicans ATCC18804, C. albicans SC5314, C. albicans wild type and C. glabrata ATCC2001 showed that the biofilms were sensitive to the product action. After the C. albicans SC5314 biofilm growth, there was not expression of the ALS1 and ALS3 genes. In conclusion, all the Candida species formed biofilms on the biomaterials. The biofilms were sensitive to M-EDTA® and the C. albicans SC5314 didn´t express the ALS1 and ALS3 genes.

Biofilme microbiano

Candida spp.

Cateter de látex siliconizado

Cateter de silicone total

M-EDTA®

Candida spp.

M-EDTA®

Microbial biofilm

Siliconized latex catheter

Total silicon catheter

Investigating The Impact of Multipurpose Solutions Released From Silicone Hydrogel Lenses on Corneal Epithelial Cells, in vitro

Tanti, Nicole-Christina

January 2009

Cytotoxicity of Multi-Purpose Solutions (MPS) is commonly tested on cells using diluted MPS or extracts from MPS soaked contact lenses. There is evidence that lens type will affect uptake and release of compounds contained in MPS. To assess the cytotoxicity of agents contained in MPS that would be released by contact lens, an in vitro “onlay” model was used, whereby MPS soaked silicone hydrogel lenses were directly set onto a confluent monolayer of corneal cells. Chapter 4 describes the impact of MPS released from contact lenses on immortalized human corneal epithelial cells. MPS-soaked lens interactions with cells were characterized by studying cell viability, cell adhesion and caspase assays. In Chapter 5, mechanisms of cell death induced by exposure to MPS from contact lenses were determined through evaluation of apoptotic markers, such as activation of caspase 3 and 9. In Chapter 6, the impact of the physical properties of silicone hydrogel lenses, specifically surface treatments, on cytotoxicity of MPS were investigated. The development of methods for characterizing the release of MPS from lenses, using absorbance spectra, is also described. The results indicate that exposure to contact lenses soaked in Opti-Free Express (OFX) and ReNu not only induces cell death in vitro, but also has an adverse effect on adhesion phenotype, suggesting that the remaining cells may have a compromised epithelial structure. Borate- buffered MPS were found to be more cytotoxic than phosphate-buffered base solutions. Investigation of the mechanisms of cell death revealed that ReNu and OFX induced corneal epithelial cell death in vitro using different pathways, whereby ReNu induced a necrotic pathway while OFX-induced cell death was mediated by the intrinsic pathway of apoptosis. The in vitro model was also able to identify differences between silicone hydrogels with different surface treatments: the different surface treatments and chemistries of silicone hydrogels lens will affect the release profile of MPS and hence their potential cytotoxicity. By investigating the induction of cell death processes by solution-lens combinations in vitro, we aim to prevent potential adverse effects in the cornea, which may ultimately compromise various visual and barrier functions. The findings indicate the wealth of information in vitro cytotoxicity testing can provide when evaluating the toxicological profile of MPS.

Multi-purpose Solutions

Contact Lens

Silicone Hydrogel

Human Corneal Epithelial Cells

Cytotoxicity

Apoptosis

Necrosis

Biocompatibility

In vitro modelling

Caspase

Cell Adhesion

Viability

Vision Science

Investigating The Impact of Multipurpose Solutions Released From Silicone Hydrogel Lenses on Corneal Epithelial Cells, in vitro

Tanti, Nicole-Christina

January 2009

Cytotoxicity of Multi-Purpose Solutions (MPS) is commonly tested on cells using diluted MPS or extracts from MPS soaked contact lenses. There is evidence that lens type will affect uptake and release of compounds contained in MPS. To assess the cytotoxicity of agents contained in MPS that would be released by contact lens, an in vitro “onlay” model was used, whereby MPS soaked silicone hydrogel lenses were directly set onto a confluent monolayer of corneal cells. Chapter 4 describes the impact of MPS released from contact lenses on immortalized human corneal epithelial cells. MPS-soaked lens interactions with cells were characterized by studying cell viability, cell adhesion and caspase assays. In Chapter 5, mechanisms of cell death induced by exposure to MPS from contact lenses were determined through evaluation of apoptotic markers, such as activation of caspase 3 and 9. In Chapter 6, the impact of the physical properties of silicone hydrogel lenses, specifically surface treatments, on cytotoxicity of MPS were investigated. The development of methods for characterizing the release of MPS from lenses, using absorbance spectra, is also described. The results indicate that exposure to contact lenses soaked in Opti-Free Express (OFX) and ReNu not only induces cell death in vitro, but also has an adverse effect on adhesion phenotype, suggesting that the remaining cells may have a compromised epithelial structure. Borate- buffered MPS were found to be more cytotoxic than phosphate-buffered base solutions. Investigation of the mechanisms of cell death revealed that ReNu and OFX induced corneal epithelial cell death in vitro using different pathways, whereby ReNu induced a necrotic pathway while OFX-induced cell death was mediated by the intrinsic pathway of apoptosis. The in vitro model was also able to identify differences between silicone hydrogels with different surface treatments: the different surface treatments and chemistries of silicone hydrogels lens will affect the release profile of MPS and hence their potential cytotoxicity. By investigating the induction of cell death processes by solution-lens combinations in vitro, we aim to prevent potential adverse effects in the cornea, which may ultimately compromise various visual and barrier functions. The findings indicate the wealth of information in vitro cytotoxicity testing can provide when evaluating the toxicological profile of MPS.

Multi-purpose Solutions

Contact Lens

Silicone Hydrogel

Human Corneal Epithelial Cells

Cytotoxicity

Apoptosis

Necrosis

Biocompatibility

In vitro modelling

Caspase

Cell Adhesion

Viability

Vision Science

Strukturelle Klebungen mit UV- und lichthärtenden Acrylaten

Vogt, Iris

04 September 2009

UV- und lichthärtenden Acrylatklebstoffen steht ein breites Anwendungsspektrum im Konstruktiven Glasbau offen. Ihr farbloses und klares Erscheinungsbild fördert eine Konstruktion, die transparent und leicht wirken soll. Kurze Aushärtezeiten, die sich im Sekunden- oder einstelligen Minutenbereich bewegen, ermöglichen eine schnelle Herstellung und reduzieren die Lagerzeiten. Die geklebten Konstruktionen können direkt weiterverarbeitet werden. Durch diese Vorteile heben sie sich von den Silikonklebstoffen ab, die für ausge-wählte Anwendungen im Fassadenbau (Structural-Sealant-Glazing-Systems - SSGS) bauaufsichtlich zugelassen sind. Gegenstand dieser Arbeit ist die Aufstellung von Empfehlungen zur Planung und Berechnung struktureller Klebungen mit strahlungshärtenden Acrylaten. Dafür werden Klebstoffe an dem reinen Material sowie in Verbindungen mit Glas und Metall untersucht. Für ein umfangreiches Bild über das Verhalten des Materials bieten sich Substanzprüfkörper an, die mit überschaubarem Aufwand eine Auswertung verschiedener Einflüsse - beispielsweise Temperatur und Prüfgeschwindigkeit - erlauben. An in-situ-Prüfkörpern kann der Klebstoff in der Verbindung betrachtet werden. Durch Wechselwirkungen zwischen Klebstoff und Fügeteil bildet sich eine sogenannte Grenzschicht aus, die gradierte Eigenschaften besitzt und die Materialkennwerte - besonders bei dünnen Klebfugen - beeinflusst. Weiterhin erlauben diese Prüfkörper eine Aussage über das Tragverhalten der Klebverbindung. Um das Potenzial der Acrylatklebungen in der Glasarchitektur aufzuzeigen und in der Anwendung zu prüfen, werden Bauteile mit punktförmig geklebten Halterungen untersucht. Absturzsicherungen werden statischen und dynamischen Belastungen unterworfen. An Überkopfverglasungen werden Trag- und Resttragfähigkeitsuntersuchungen durchgeführt. Bauteile im Freien geben Aufschluss über das Alterungsverhalten unter natürlichen klimatischen Bedingungen. / UV and light curing acrylates present a whole host of possibilities for the implementation of glass construction. Their clear and colourless appearance produces a transparent and lightweight construction. Short curing times consisting of no more than mere minutes allow for quick production with minimal downtime within the overall process. Processing can be resumed immediately once bonding has occurred. The advantages of acrylates can be compared to the characteristics and properties of adhesive silicones which have been widely approved by building authorities for specific façade applications (Structural-Sealant-Glazing-Systems - SSGS). The subject matter of this study is the development of auxiliary tools to plan and design adhesively bonded joints of UV and light curing acrylates. These adhesives are, therefore, analysed both generally as bulk material and in applications as a joint between glass and metal. The use of dog bone shaped specimens is recommended to analyze the material behaviour under a variety of influence factors such as temperature and testing rate. The bonded joints of test specimens provide an opportunity to examine the interaction between the adhesive and the materials to which they are adhered. An interface with graded properties is formed based upon the interactions between adhesive joints and each particular substrate. Further on, bonded specimens enable the development of a statement concerning the load-bearing capacity of joints. Constructions having spot bonded joints are tested to demonstrate the potential use of acrylic joints in architectural glass treatments. Safety barriers are tested under both static and dynamic loads. Sloped roof systems are tested to substantiate load-bearing capacity and to verify any residual carrying capacity. Components are exposed to natural weathering in order to examine the affects of ageing on the adhesive.

Glas

Klebstoffe

UV- und lichthärtende Acrylate

Silikon

Materialeigenschaften

glass

adhesive

UV and light curing acrylate

silicone

material properties

ddc:690

rvk:ZI 7350

Etude des huiles et des mélanges à base d'huile minérale pour transformateurs de puissance – Recherche d'une mélange optimal

Perrier, Christophe

12 April 2005

L'huile minérale constitue le liquide isolant le plus communément employé dans les transformateurs de puissance d'une part pour ses propriétés physico-chimiques et d'autre part pour son faible coût et sa disponibilité. Cependant les performances de cette huile commencent à être limitées par rapport aux nouveaux critères. Pour palier à ce problème, deux solutions sont envisageables : trouver des liquides de substitution ou améliorer les propriétés de l'huile minérale. C'est à cette deuxième solution qu'est dédié ce travail. Il s'agit de trouver un mélange optimal d'huiles à base d'huile minérale, les additifs considérés étant des liquides isolants utilisés également dans les transformateurs tels que les huiles esters synthétiques et les huiles silicones. Des essais permettant d'analyser des caractéristiques fondamentales comme la miscibilité, la viscosité cinématique, la tenue diélectrique, la stabilité au vieillissement des huiles et des mélanges, et des mesures de tendance à la charge statique, ont été effectuées. Différents mélanges à différentes concentrations ont été étudiés. Pour des raisons techniques et économiques, l'accent est mis sur les mélanges composés de 80% d'huile minérale et 20% des autres types d'huile. Il ressort des différents essais réalisés que chaque type d'huile a un avantage. L'huile minérale est la plus efficace pour évacuer la chaleur de par sa faible viscosité, l'huile ester synthétique présente la meilleure tenue diélectrique de par sa haute solubilité de l'eau, et l'huile silicone est la plus stable au vieillissement. D'autre part, le mélange optimal obtenu se compose de 80% d'huile minérale et 20% d'ester synthétique. Ce mélange permet d'améliorer certaines caractéristiques de l'huile minérale sans toutefois dégrader ses bonnes propriétés, tout en restant dans un coût raisonnable. Il présente, par rapport à l'huile minérale seule, une aptitude à évacuer la chaleur pratiquement équivalente, une tenue diélectrique plus élevée, une meilleure stabilité au vieillissement et une tendance à la charge statique modérée.

[SPI:OTHER] Engineering Sciences/Other

huiles isolantes

huile minérale

huile ester synthétique

huile silicone

mélanges

transfert de chaleur et viscosité

stabilité au vieillissement

densité de charge

Silikonöl als intraokulärer Medikamententräger / Interaktionen zwischen Endotamponade und Kortikosteroiden / Silicone oil as carrier for drug delivery / Interaction between endotamponade and corticosteroids

Braun, Benjamin

06 July 2010

No description available.

610 Medizin, Gesundheit

Medicine

Silikonöl

Endotamponade

Triamcinolon

Dexamethason

Drug-Delivery

Vitrektomie

silicone oil

endotamponade

triamcinolone

dexamethasone

drug delivery

vitrectomy

44.95 Augenheilkunde

MED 520 Ophthalmologie

Synthèse de nanolubrifiants à base de carbones fluorés

Disa, Elodie

16 November 2012

Pour répondre aux problématiques d'usure précoce des pièces mécaniques causée par des pressions et températures élevées d'utilisation, des nanolubrifiants constitués de nanocarbones fluorés, connus pour leurs faibles coefficients de frottement et haute stabilité thermique ont été synthétisés. Pour améliorer ces propriétés, des précurseurs nanocarbonés de dimensionnalités différentes, et des procédés de synthèse gaz-solide variés ont été employés. Ainsi, une structure fermée comme les nanofibres de carbone NFCs (1D, tubulaire), ouverte comme le mélange nanodisques / nanocônes de carbone NDCs (majoritairement 2D, discotique) et intermédiaire avec les noirs de carbone graphitisés NCGs (0D, sphérique) ont été fluorés, d'une part avec le fluor moléculaire gazeux et d'autre part avec le fluor atomique produit par décomposition thermique d'un agent solide. Les mécanismes de fluoration / défluoration ont été proposés à l'aide de différentes techniques de caractérisation complémentaires (RMN du solide, MEB, MET, AFM, DRX) pour l'ensemble des matrices étudiées. Des matériaux présentant un gain de stabilité thermique de plusieurs dizaines de degrés comparativement aux matériaux fluorés de la littérature ont été élaborés, et une nouvelle méthode de synthèse dite " fluoration flash " a été mise au point pour étendre encore cette tenue en température. Les bonnes propriétés tribologiques de ces matériaux ont également été démontrées, notamment à 160°C et ceci quel que soit le mode de fluoration. Par la suite, des vernis à base de résines siliconées et chargés en nanofibres de carbone fluorées ont été formulés. Le revêtement composite présente une stabilité thermique supérieure à 400°C comme démontré par l'étude de son mécanisme de dégradation en température, notamment par couplage ATG-FTIR. D'un point de vue tribologique, les coefficients de frottement mesurés à température ambiante et 160°C sont inférieurs à 0,1 et les tribofilms obtenus ont été caractérisés par analyse MEB et EDX.

[CHIM:OTHE] Chemical Sciences/Other

[CHIM:OTHE] Chimie/Autre

Nanocarbone

Fluoration

Stabilité thermique

Lubrifiant solide

Tribofilm

Revêtement composite

Silicone

Polysiloxane

RMN du solide

Couplage ATG-FTIR

MEB

MET

AFM

Corona discharges on the surfaces of high voltage composite insulators

Hinde, David Derek

January 2009

The degradation of high voltage electrical insulation is a prime factor that can significantly influence the reliability performance and the costs of maintaining high voltage electricity networks. Little information is known about the system of localized degradation from corona discharges on the relatively new silicone rubber sheathed composite insulators that are now being widely used in high voltage applications. This current work focuses on the fundamental principles of electrical corona discharge phenomena to provide further insights to where damaging surface discharges may localize and examines how these discharges may degrade the silicone rubber material. Although water drop corona has been identified by many authors as a major cause of deterioration of silicone rubber high voltage insulation until now no thorough studies have been made of this phenomenon. Results from systematic measurements taken using modern digital instrumentation to simultaneously record the discharge current pulses and visible images associated with corona discharges from between metal electrodes, metal electrodes and water drops, and between waters drops on the surface of silicone rubber insulation, using a range of 50 Hz voltages are inter compared. Visual images of wet electrodes show how water drops can play a part in encouraging flashover, and the first reproducible visual images of water drop corona at the triple junction of water air and silicone rubber insulation are presented. A study of the atomic emission spectra of the corona produced by the discharge from its onset up to and including spark-over, using a high resolution digital spectrometer with a fiber optic probe, provides further understanding of the roles of the active species of atoms and molecules produced by the discharge that may be responsible for not only for chemical changes of insulator surfaces, but may also contribute to the degradation of the metal fittings that support the high voltage insulators. Examples of real insulators and further work specific to the electrical power industry are discussed. A new design concept to prevent/reduce the damaging effects of water drop corona is also presented.

Biofilm formation of Enterobacter sakazakii on three different materials of infant feeding tube : a thesis presented in partial fulfillment of the requirements for the degree of Master of Technology in Food Microbiology at Massey University, Palmerston North, New Zealand

Md Zain, Siti Norbaizura Binti

January 2009

The aim of this study was to observe biofilm formation by Enterobacter sakazakii (E. Sakazakii) from different clinical, dairy and environmental origins on three infant feeding tubes made of different materials. Infant formula milk was selected as the medium for E. sakazakii growth. Seventeen isolates from different origins were retrieved and tested for purity, using a plating method and biochemical tests to eliminate the non E. sakazakii strains from this study. A method to rapidly and accurately detect viable cells of E. sakazakii on infant feeding tube surfaces using of the BacTrac® 4000 microbiological growth analyser was developed. The sources of errors such as from cleaning, operation and handling procedures were assessed prior to experimental runs. The strength of biofilm formation by different isolates of E. sakazakii on plastic surfaces was scrutinised using a microtiter plate assay. The results from the microtitre plate assay were based on the absorbance at 550 nm of crystal violet stained films and showed that all the clinical isolates were able to attach and form strong biofilms on the plate. Some environmental isolates formed strong or weak biofilms and some did not produce biofilm at all. However, dairy isolates formed both strong and weak biofilms in the microtitre plate when incubated in 10% reconstituted infant formula milk. The further studies were to quantify biofilm formation by three isolates of different origin on three different materials of infant feeding tubes using a batch system. Tubing pieces were incubated with infant formula milk inoculated with E. sakazakii cells at approximately 8 log CFU mL-1 and the biofilm formation was assessed at three time intervals: 4, 12 and 24 hours. Biofilm formation on the tubing by clinical isolates was also observed using epifluorescence microscopy and the scanning electron microscope. E. sakazakii from clinical, dairy and environmental isolates were able to form biofilm on three different materials of infant feeding tubes. The results showed that the initial attachment at 4 h on silicone tubing was low compared with the other two tubes. The scanning electron micrographs showed the surface characteristics of each tubing and the biofilm formation by E. sakazakii clinical isolates after 4, 12 and 24 hours. Silicone tubing appeared to be the best choice for premature babies that need feeding using feeding tubes, as it was slow to become colonised compared with the PVC and polyurethane tubing.

infant formula

premature babies

silicone tubing

PVC tubing

polyurethane tubing

biofilm

Flatstickad distanstextil : Formstickad 3D-struktur och fokus på vidhäftningsförmågan hos olika bindningar.

Ewert, Mia, Ulfsson, Moa

January 2018

Sjöräddningssällskapet har sedan 1907 räddat liv genom frivilliga sjöräddare. De har en vision om att kunna effektivisera sina räddningsaktioner genom att skicka ut en drönare till olycksplatsen för att få en övergripande bild av händelsen och på så sätt kunna anpassa rätt utrustning och personal. Idén var att konstruera drönarens kropp i form av en textil 3D-struktur, detta skulle underlätta dess användning då den skulle bli flexibel och vid olycksplatsen kunna stuvas undan och förflyttas smidigare. Tanken är att drönaren ska ha en konstruktion som kan blåsas upp och bli styv för att sedan kunna tömmas på luft och bli flexibel. Syftet med denna studie är att ta fram en flatstickad distanstextil som ska fungera som en kropp till en drönare där förhoppningen är att den textila 3D-kroppen ska kunna formstickas som en vinge. I distanstextil skapas luftrum mellan lagren vilket möjliggör att en uppblåsbar konstruktion kan skapas. Genom att variera olika parametrar kan man även ta fram önskade egenskaper som styvhet, form, flexibilitet samt lättvikt. För att skapa en distanstextil som är styv i uppblåst läge krävs en beredning. Trikåvaror är generellt svåra att bereda, därför har studien undersökt olika trikåbindningars förmåga att vidhäfta mot beredningar.   Den formstickade distansstrukturen i väfttrikå tillverkades på en flatstickmaskin, där formen skapades genom masköverhängningar. Genom att binda distanstråden på olika nålavstånd kunde ett ovalt tvärsnitt uppnås. För att undersöka olika bindningars förmåga att vidhäfta mot beredningar testades flatstickade 2D-prover. Bindningarna var slätstickning, pikévariant över 2 system, pikévariant över 4 system samt slätstickning med plätering. De olika beredningar som undersöktes var silikonbeläggning, polyuretanfilm, polyetenfilm tillsammans med polyuretanfilm samt en polypropenfilm. Syftet var att hitta en beredning som är lätt i vikt, luft- och vattentät. Ett vidhäftningstest utfördes på bindningarna slätstickning, pikévariant över 2 system samt pikévariant över 4 system med hjälp av en dragprovare för bestämning av de olika bindningarnas vidhäftning mot olika lamineringar. De tre bindningarna i kombination med laminering testades även för luft- och vattentäthet.   Studien visar att det finns goda möjligheter att formsticka en flatstickad distanstextil som ska fungera som en kropp till en drönare. Resultatet visar att provkroppen som var stickad med pikévariant över två system samt laminerad med polyuretanfilmen gav bäst resultat vid utfört vidhäftningstest. Vid test av luftgenomsläpplighet visade pikévariant över två system med laminering av polyuretanfilm tillsammans med en polyetenfilm tätast resultat med låg luftgenomsläpplighet. Test för bestämning av vattentäthet visar att den slätstickade varan med en laminering med polyetenfilm och en polyuretanfilm gav bäst resultat. / Since 1907, the Swedish Sea Rescue Society has saved lives with the help of volunteer workers. Their vision is to be able to improve their rescue operations with quicker respond times by sending out a drone to the scene of an accident. The idea is to get a comprehensive picture of the scene, so they can adapt the right equipment and personnel for the job. The idea is to create a drone with a textile 3D structure, which would ease use as it would become flexible and easier to remove from the scene of the alarm. The drone should have a structure similar to a stand-up paddle board, where it can be inflatable and become stiff and then be deflated and folded and tucked away.   The purpose of this study is to develop a flat knitted spacer fabric that will serve as a body of the drone, hoping that the textile 3D structure can be shaped like a wing. With spacer fabrics, space for air is created between the layers, enabling an inflatable construction to be created. By varying different parameters, one can also develop desired features such as stiffness, shape, flexibility and decrease weight. To be able to create a spacer fabric that is stiff when inflated, a finishing process is required. It is generally hard to find a finishing to a knitted fabric, therefore the study investigates the ability of different bindings on a knitted fabric to adhere to finishes.   The shaped spacer fabric was manufactured by weft knitting on a flat knitting machine called Stoll CMS 822 HP. A wing shaped spacer and an oval cross section were achieved in this study. To investigate how the binding affects the adhesion of the finishing, three different bindings of flat knitted 2D- structures were tested. The bindings were: plain fabric (single jersey), pique structure over 2 feeders, pique structure over 4 feeders and plain fabric with plating. The finishing processes that were studied were silicone coating, a polyurethane film, a polyethylene film and a polypropylene film. The aim was to find a finishing with the properties of light weight, air and water tightness. An adhesion test was performed on the bindings plain fabric, pique structure over 2 feeders and pique structure over 4 feeders by a tensile tester to determine the adhesion between the tested bindings and finishes. These test specimens were also tested to determine resistance to water penetration and air permeability.   The study shows that it is possible to create a shaped spacer fabric by flat knitting, that will act as the body of a drone. The result of the adhesion test shows that the test specimen with binding pique over 2 feeders and laminated with a polyurethane film performed the best. In the air permeability test the same binding showed the best result but with a lamination of a polyurethane film and a polyethylene film. The test to determine resistance to water penetration showed that the binding plain fabric was the best, with a lamination of a polyurethane film, and a polyethylene film.

Spacer fabrics

PVC

polyurethane

polyethylene

silicone

polypropylene

adhesion

knitting technology

Distanstextil

PVC

polyuretan

polyeten

silikon

polypropen

vidhäftning

adhesion

trikåteknik

Engineering and Technology

Teknik och teknologier