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Efeito da esterilização e uso clínico nas propriedades mecânicas e rugosidade superficial dos fios de níquel titânio / Effects of sterilization and clinical use in mechanical properties and surface roughness of nickel titanium wiresPrado, Murilo de Melo 25 March 2015 (has links)
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Previous issue date: 2015-03-25 / This study evaluated the effects of sterilization and clinical use in the mechanical properties
and surface roughness gauge wires 0.018 "nickel titanium termoset, with the addition of
copper covers: Ormco (Glendora, CA, USA). Twenty-four samples were the evaluation of
mechanical behavior in the load test and deflection, the scanning electron microscopy and
atomic force microscope to check surface roughness. The tests were performed in four
different situations: 1-packaged by the manufacturer (control); 2- packaged by the
manufacturer and autoclaved; 3- after clinical use 60 days and disinfection and 4- and
autoclaved clinical use. The data were submitted to ANOVA and Tukey test. By applying the
deflection test on three points could be observed that the wires in all groups showed
mechanical behavior in the activation / deactivation similar, with no significant statistical
differences. All wires reached the end point of deactivation with forces approximate the
control group (1.398 ± 0.19 N / mm). The AFM and SEM, all thermoset wires showed
irregularities in its surface topography, and there were no major changes in surface pattern
between the groups for the analyzed wire. The qualitative evaluation of surface roughness
showed grooves and craters, influencing the surface of the wires smoothness, while the
quantitative analyzes showed no statistically significant difference between the groups
evaluated. The concluse is that sterilize the wires and use them clinically for 60 days did not
alter the mechanical behavior and the surface roughness of the wires 0.018" NiTi Thermoset
with addition of copper. / Este estudo avaliou os efeitos da esterilização e uso clínico nas propriedades mecânicas e
rugosidade superficial de fios calibre 0,018” de níquel titânio termoativado com adição de
cobre da marca: Ormco (Glendora, CA, USA). Vinte e quatro amostras foram submetidas à
avaliação do comportamento mecânico no teste de carga e deflexão, à microscopia eletrônica
de varredura e microscópio de força atômica para verificação da rugosidade superficial. Os
testes foram realizados em quatro situações distintas: 1- embalado pelo fabricante (controle);
2- embalado pelo fabricante e autoclavado; 3- após uso clínico 60 dias e desinfecção e 4- uso
clínico e autoclavado. Os dados obtidos foram submetidos à análise estatística ANOVA e
teste de Tukey. Pela aplicação do teste de deflexão em três pontos pôde-se observar que os
fios em todos os grupos apresentaram comportamento mecânico na ativação/desativação
semelhantes, não havendo diferenças estatísticas significantes. Todos os fios chegaram ao
ponto final de desativação com forças aproximadas ao grupo controle (1,398 ±0,19 N/mm).
Ao AFM e MEV, todos os fios termoativados apresentaram irregularidades em sua topografia
superficial, não sendo observadas grandes mudanças no padrão superficial entre os grupos
para cada fio analisado. A avaliação qualitativa da rugosidade superficial demonstrou
ranhuras e crateras, influenciando na lisura superficial dos fios, enquanto a avaliação
quantitativa demonstrou não haver diferença estatisticamente significante entre os grupos
avaliados. Concluiu-se que esterilizar os fios e utilizá-los clinicamente por 60 dias não alterou
o comportamento mecânico e nem a rugosidade superficial dos fios 0,018” NiTi
termoativados com adição de cobre.
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Microstructure and Mechanical Property of Heavily Deformed Al-Sc Alloy Having Different Starting Microstructures / 異なる初期組織を有するAl-Sc合金の巨大ひずみ加工に伴う組織と機械的性質の変化Ehsan Borhani 23 January 2012 (has links)
Kyoto University (京都大学) / 0048 / 新制・課程博士 / 博士(工学) / 甲第16510号 / 工博第3503号 / 新制||工||1530(附属図書館) / 29167 / 京都大学大学院工学研究科材料工学専攻 / (主査)教授 辻 伸泰, 教授 落合 庄治郎, 教授 田中 功 / 学位規則第4条第1項該当
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The Study of Comprehensive Reinforcement Mechanism of Hexagonal Boron Nitride on ConcreteHe, Qinyue 08 1900 (has links)
The addition of hexagonal boron nitride (h-BN) has introduced a comprehensive reinforcing effect to the mechanical and electrochemical properties of commercial concrete, including fiber reinforced concrete (FRC) and steel fiber reinforced concrete (SFRC). Although this has been proven effective and applicable, further investigation and study is still required to optimize the strengthen result which will involve the exfoliation of h-BN into single-layered nano sheet, improving the degree of dispersion and dispersion uniformity of h-BN into concrete matrix. There is currently no direct method to test the degree of dispersion of non-conductive particles, including h-BN, in concrete matrix, therefore it is necessary to obtain an analogous quantification method like SEM, etc. The reinforcing mechanism on concrete, including FRC and SFRC is now attracting a great number of interest thanks to the huge potential of application and vast demand across the world. This study briefly describes the reinforcing mechanism brought by h-BN. In this study, different samples under varied conditions were prepared according to the addition of h-BN and dispersant to build a parallel comparison. Characterization is mainly focused on their mechanical properties, corrosive performance and SEM analysis of the cross-section of post-failure samples.
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Study on effects of submicron glass fiber modification on mechanical properties of vinyl ester resin and short carbon fiber reinforced vinyl ester composite / ビニルエステル樹脂および短炭素繊維強化ビニルエステル複合材料の機械的特性のサブミクロンガラス繊維による改質効果に関する研究 / ビニル エステル ジュシ オヨビ タンタンソ センイ キョウカ ビニル エステル フクゴウ ザイリョウ ノ キカイテキ トクセイ ノ サブミクロン ガラス センイ ニヨル カイシツ コウカ ニカンスル ケンキュウNhan Thi Thanh Nguyen 22 March 2020 (has links)
This research investigated effect of submicron glass fiber modification on mechanical performance of short carbon fiber reinforced vinyl ester resin. Firstly, the mixture of resin and glass fiber was made by mixing submicron fiber into resin in a homogenizer at the speed of 5000 rpm in 30 minutes. Then, this modified resin was reinforced by short carbon fiber at the length of 1 mm, 3mm and 25 mm. The modifying effects were accessed by evaluating mechanical properties such as: bending, tensile, impact test as well as dynamic mechanical analysis. To explain some manners of material caused by adding glass fiber into resin, some techniques were also used (IFSS, SEM, laser microscope scanner, ultrasonic S-scan, X-ray ...). / 博士(工学) / Doctor of Philosophy in Engineering / 同志社大学 / Doshisha University
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Processing, Characterization And Performance Of Carbon Nanopaper Based Multifunctional NanocompositesLiang, Fei 01 January 2012 (has links)
Carbon nanofibers (CNFs) used as nano-scale reinforcement have been extensively studied since they are capable of improving the physical and mechanical properties of conventional fiber reinforced polymer composites. However, the properties of CNFs are far away from being fully utilized in the composites due to processing challenges including the dispersion of CNFs and the viscosity increase of polymer matrix. To overcome these issues, a unique approach was developed by making carbon nanopaper sheet through the filtration of well-dispersed carbon nanofibers under controlled processing conditions, and integrating carbon nanopaper sheets into composite laminates using autoclave process and resin transfer molding (RTM). This research aims to fundamentally study the processing-structure-property-performance relationship of carbon nanopaper-based nanocomposites multifunctional applications: a) Vibrational damping. Carbon nanofibers with extremely high aspect ratios and low density present an ideal candidate as vibrational damping material; specifically, the large specific area and aspect ratio of carbon nanofibers promote significant interfacial friction between carbon nanofiber and polymer matrix, causing higher energy dissipation in the matrix. Polymer composites with the reinforcement of carbon nanofibers in the form of a paper sheet have shown significant vibration damping improvement with a damping ratio increase of 300% in the nanocomposites. b) Wear resistance. In response to the iv observed increase in toughness of the nanocomposites, tribological properties of the nanocomposite coated with carbon nanofiber/ceramic particles hybrid paper have been studied. Due to high strength and toughness, carbon nanofibers can act as microcrack reducer; additionally, the composites coated with such hybrid nanopaper of carbon nanofiber and ceramic particles shown an improvement of reducing coefficient of friction (COF) and wear rate. c) High electrical conductivity. A highly conductive coating material was developed and applied on the surface of the composites for the electromagnetic interference shielding and lightning strike protection. To increase the conductivity of the carbon nanofiber paper, carbon nanofibers were modified with nickel nanostrands. d) Electrical actuation of SMP composites. Compared with other methods of SMP actuation, the use of electricity to induce the shape-memory effect of SMP is desirable due to the controllability and effectiveness. The electrical conductivity of carbon fiber reinforced SMP composites can be significantly improved by incorporating CNFs and CNF paper into them. A vision-based system was designed to control the deflection angle of SMP composites to desired values. The funding support from National Science Foundation and FAA Center of Excellence for Commercial Space Transportation (FAA COE CST) is acknowledged.
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Self-sensing ultra-high performance concrete: A reviewGuo, Y., Wang, D., Ashour, Ashraf, Ding, S., Han, B. 02 November 2023 (has links)
Yes / Ultra-high performance concrete (UHPC) is an innovative cementitious composite, that has been widely applied in numerous structural projects because of its superior mechanical properties and durability. However, ensuring the safety of UHPC structures necessitates an urgent need for technology to continuously monitor and evaluate their condition during their extended periods of service. Self-sensing ultra-high performance concrete (SSUHPC) extends the functionality of UHPC system by integrating conductive fillers into the UHPC matrix, allowing it to address above demands with great potential and superiority. By measuring and analyzing the relationship between fraction change in resistivity (FCR) and external stimulates (force, stress, strain), SSUHPC can effectively monitor the crack initiation and propagation as well as damage events in UHPC structures, thus offering a promising pathway for structural health monitoring (SHM). Research on SSUHPC has attracted substantial interests from both academic and engineering practitioners in recent years, this paper aims to provide a comprehensive review on the state of the art of SSUHPC. It offers a detailed overview of material composition, mechanical properties and self-sensing capabilities, and the underlying mechanisms involved of SSUHPC with various functional fillers. Furthermore, based on the recent advancements in SSUHPC technology, the paper concludes that SSUHPC has superior self-sensing performance under tensile load but poor self-sensing performance under compressive load. The mechanical and self-sensing properties of UHPC are substantially dependent on the type and dosage of functional fillers. In addition, the practical engineering SHM application of SSUHPC, particularly in the context of large-scale structure, is met with certain challenges, such as environment effects on the response of SSUHPC. Therefore, it still requires further extensive investigation and empirical validation to bridge the gap between laboratory research and real engineering application of SSUHPC. / The full-text of this article will be released for public view at the end of the publisher embargo on 28 Dec 2024.
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The Effect of Heat Treatment on the Microstructure Evolution and Mechanical Properties of Ti-5Al-5V-5Mo-3Cr, and Its Potential Application in Landing Gears.Panza-Giosa, Roque 30 September 2009 (has links)
<p>The properties and microstructure of Ti-5Al-5V-5Mo-3Cr were characterized under
various stress states after the following heat treatments: 1) annealing above the β transus, followed by cooling at various rates and ageing for different times; 2) solution heat treatment in the α-β range, fan-cooling and ageing for various temperatures and times.</p> <p>Heat treatment above the ptransus temperature causes complete recrystallization of the as-forged microstructure. The as-cooled microstructure consists of equiaxed β grains with an average grain size of 200μm. Water quenching from above the β transus results in precipitation of a dispersion of nano-sized ω phase; while the fan-cooled microstructure contains nano-sized ω and α precipitates. Ageing of the fan-cooled microstructure at 790°C or 600°C precipitates sub micron acicular α throughout the β grains. The tensile properties of this condition could not be determined using standard tensile specimens due to brittle failure at the grips.</p> <p>Controlled cooling from above the β transus to the ageing temperature at slower rates produces a coarser α+β microstructure. Acicular α laths are produced with cooling rates of 1°C/min, while lamellar α develops at cooling rates of 3.4°C/min. The β annealed and fan-cooled condition is characterized by relatively low strength (~850MPa) and low ductility (~6% elong.).The fracture mode is by intensely localized slip and the creation of transgranular cracks. Localization of slip is attributed to shearing of the nano-scale ω precipitates by dislocations. A linear relationship between the grain size, d⁻¹/² , and the yield and fracture stresses was established, as described by the Hall-Petch relation. With controlled cooling, the strength and ductility improve by precipitation of lamellar α within the β matrix. Improvements in ductility and strength are achieved by reducing the slip length.</p> <p>Solution heat treatment below the β transus and fan-cooling results in complete dissolution of the as-forged acicular α phase. Solutionizing at 50°C below the ptransus yields a volume fraction of 16.5% primary α in a matrix of retained β. Low angle grain boundaries and globular primary α, each measuring 2-4μm average in diameter, are uniformly distributed throughout the retained β matrix. The tensile strength in this condition is relatively low, i.e. (900MPa) and the ductility relatively high (~16% elong.). With ageing in the 500°C to 600°C temperature range, precipitation of α within the retained β begins within 5 minutes of the start of ageing. Precipitating is heterogeneously nucleated at dislocations and grain boundaries. The yield and ultimate tensile strengths reach values of roughly 1200 and 1300MPa, respectively, and remain relatively constant for up 48 hours ageing</p> <p> The fracture stresses for the solution treated condition and for material subsequently aged at 500°C and 600°C are quite similar in magnitude. This similarity is due to the fact that the fracture mechanism, which controls the fracture stress, is the same for all these conditions. The fracture mechanism for all the solution treated conditions begins with shear decohesion of the primary α/β interfaces.</p> <p>For each condition, the damage mechanisms and final fracture modes were evaluated and rationalized on the basis of microstructural features. The yield and fracture stresses for the various conditions were calculated and plotted on a two-principal stress axis coordinate system, thus creating the failure envelope for Ti-5553. For the β annealed and fan cooled and for the α-β solution heat treated and aged conditions the yield and fracture envelopes are two concentric ellipses in good agreement with the shear strain energy (van Mises) model for failure.</p> <p>The fracture toughness and stress corrosion cracking behaviour for the STA condition were evaluated and compared against other β titanium alloys.</p> / Thesis / Doctor of Philosophy (PhD)
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Effect of Ni Interlayer on the Properties of Cr/Crn Coatings on 1010 SteelMu, Haichuan 22 May 2002 (has links)
No description available.
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UV Laser Treatment of Tire Reinforcing Materials for Improved Adhesion to RubberLIU, XIAOXIAO January 2015 (has links)
No description available.
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Microstructure Alignment and Mechanical Properties of Block Copolymer and Crystalline Polymer Thin FilmsYe, Changhuai January 2016 (has links)
No description available.
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