Correlation between morphology and mechanical properties of denture resins cured by different methods

Wang, Pei-yu

24 July 2007

This thesis contains two parts. In the first part, four kinds of dental baseplates were obtained after curing at 70 ¢XC in water bath or curing in microwave oven. Pressure vent polymerizing Meta-cera (PVPM) methods were performed at 500 watts using Y-Z flask, then the specimens in the flasks were cooled in two different ways. Additionally, the samples in GC FRP flask were separately cured by three different microwave-energy powers: 85, 255 or 595 watts. Each of these curing conditions has six specimens. Adaptation, porosity, and fracture strength of these specimens were evaluated. Optilon-399, a rubber-toughed dental baseplate, was chosen to study the effect of curing conditions on the morphology of the stained specimens using transmission electron microscope (TEM). The results indicate that dispersed rubber- enriched phase is observed. Most of the dispersed phase has a mean-diameter ranging from 210 to 1440 nm and smaller domains have a mean-diameter of 80-100 nm. These dispersed domains observed in TEM micrographs are statistically analyzed and compared using one-way analysis of variance (ANOVA) method. The specimens cured in water bath (reference) have the largest mean-diameter, 456 ¡Ó 131 nm, for the dispersed phase. There is no significant difference in mean-diameters between the reference method and 595-watts method. Mean-diameters of the specimens (408~442 nm) cured by the other four methods are significantly less than that of the reference method. Differences are also found among three different microwave-energy powers. Mean-diameter increases from 408 to 432 to 454 nm and the number of domains drops from 35.7 to 34.1 to 32.1 per TEM micrograph when microwave-energy power increases from 85 to 255 to 595 watts. However, 595-watts specimens have the problem of porosity and 85-watts specimens have the highest adaptation discrepancy. Therefore, 255-watts specimens have a relatively high fracture strength (388 kgf versus 354 or 369 kgf). There is no difference in mean-diameter (440 versus 442 nm) and the number of domains (32.9 per TEM micrograph) between PVPM systems. Low adaptation discrepancy and no porosity result in a higher fracture strength (395 and 381 kgf) compared with the reference method (284kgf). From this study, PVPM method in a bench cooled type is suggested to prepare dental baseplates. In the second part, restorative materials for tooth were polymerized and cured using a blue light emitting diode (LED) unit. Five kinds of light-curing hybrid composite resins (Premisa, Esthet-X micro matrix restorative, Z100 Restorative, Filtek Z250 and Filtek Z350) were processed by four different operating modes of LED as follows: control mode- 500 mW/cm2 for 20 s; pulse cure mode - 500 mW/cm2 for 10s, 0 mW/cm2 for 10s, then 500 mW/cm2 for the next 10 s; soft-start (ramp) mode- initially 600 mW/cm2 for 10 s, then jump to 1400 mW/cm2 for 10 s; turbo (high) mode-1400 mW/cm2 for 10 s. Each of light-curing dental materials and LED operating modes has six specimens. Temperature variation of resins in a period of 60 s was measured during and after activating the light. Vicker¡¦s hardness of both top and bottom sides of specimens after curing was measured. Both temperature rise and hardness of specimens are statistically analyzed and compared using two-way ANOVA method. Soft-start mode induced an average temperature rise of 7.70 ¡Ó 0.77 ¢XC which is significantly (P<0.05) higher than the other three modes. Pulse cure mode yielded average 4.49 ¡Ó 0.84 ¢XC rise which is lowest (P<0.05). There is no difference in temperature rise between control and turbo modes (P>0.05). Comparing five dental materials, Z350 had an average temperature rise of 7.04 ¡Ó 1.10¢XC that is the highest and significantly different from the other materials (P<0.05). Average temperature rise of the other materials was about 5.3 ¢XC without significant difference, except Premise versus Z100. Both top and bottom sides¡¦ hardness of the cured specimens are determined by dental materials (P<0.05), not by LED operating modes (P>0.05). Z100 has the highest hardness (top: 181.6¡Ó8.9kgf/mm2, bottom: 149.1¡Ó6.0 kgf/mm2). Hardness decreases in the order of Z250, Esthet-X, Premise, Z350. Additionally, the results of isothermal polymerization and curing of resins at 165 ¢XC for 3 hr indicate that the high temperature rise (7 ¢XC) of Z350 resins is due to the high exothermic enthalpy (- 61 J/g). The trend of temperature rise of other dental materials can also be explained from the exothermic value which is measured using differential scanning calorimeter (DSC). Degree of polymerization conversion of resins after light-curing was also evaluated using DSC. Z100 specimens yielded the complete conversion (100%) for all of LED operating modes. From the viewpoints of complete conversion and high hardness, it is suggested to process Z100 specimens in a pulse cured mode because the temperature rise is only 4.65 ¢XC.

resin

temperature rise

fracture strength

hardness

morphology

degree of conversion

Micro- and nano- scale experimental approach to surface engineer metals

Asthana, Pranay

17 September 2007

This thesis includes two parts. The first part reviews the history and fundamentals of surface science and tribology. The second part presents the major research outcomes and contributions. This research explores the aspects of friction, wear, and surface modification for tribological augmentation of surfaces. An effort has been made to study these aspects through gaining insights by fundamental studies leading to specific practical applications in railroads. The basic idea was to surface engineer metals for enhanced surface properties. A micro- and nano- scale experimental approach has been used to achieve these objectives. Novel principles of nano technology are incorporated into the experiments. Friction has the potential to generate sufficient energy to cause surface reactions through high flash temperatures at the interface of two materials moving in relative motion. This allows surface modifications which can be tailored to be tribologically beneficial through a controlled process. The present work developed a novel methodology to generate a functional tribofilm that has combined properties of high hardness and high wear resistance. A novel methodology was implemented to distinguish sliding/rolling contact modes during experiments. Using this method, a super hard high-performance functional tribofilm with “regenerative” properties was formed. The main instrument used in this research for laboratory experiments is a tribometer, using which friction, wear and phase transformation characteristics of railroad tribo-pairs have been experimentally studied. A variety of material characterization techniques have been used to study these characteristics at both micro and nano scale. Various characterization tools used include profilometer, scanning electron microscope, transmission electron microscope, atomic force microscope, X-ray diffractometer, nanoindenter, and X-ray photon spectroscope. The regenerative tribofilms promise exciting applications in areas like gas turbines, automotive industry, compressors, and heavy industrial equipment. The outcome of this technology will be an economical and more productive utilization of resources, and a higher end performance.

tribofilms

friction

wear resistance

railroads

hardness

lubricant

surface science

tribology

Experimental study on complex sheet rolling of Al/Cu metals

Lin, Hsu-wen

03 September 2008

In this study, complex rolling technology is adopted to produce aluminum/copper clad metals . The aluminum alloy A1050 and the copper C1100 are used. The experimental plan : the roughness (RCu=3.5£gm¡ARAl=6.45£gm)¡A(RCu=1.0£gm¡ARAl =2.15£gm)¡A(RCu=0.35£gm¡ARAl=0.8£gm) the thickness ratio(tAl:tCu=3:1)¡A(tAl:tCu =2:2)¡A(tAl:tCu=1:3) reduction 60% and 70% are set. It shows that the influence of the thickness is more significant than the roughness on the curvature according to the experimental results. And the results of peeling tests show that the peeling strength for the reduction 70% is larger than that for 60%. And peel strength with the second time rolling is larger than that with only once. The average peeling strength of the specimen in the rolling direction is larger than that in the perpendicular direction. From the micro Vickers hardness tests , it is known that the larger of the reduction of copper is, the larger the micro Vickers hardness between the interface of the sheets is .

peel test

micro Vickers hardness

complex rolling

reduction ration

The Effect of the Local Defect on Thin Film Mechanical Properties by Employing Nanoindentation Simulation

Huang, Chiung-yu

28 July 2009

The effect of local defect on thin film mechanical properties is studied in this thesis. The molecular dynamics (MD) is employed to simulate and analyze the relation between intermolecular strength and deformation in the nanoindentation test. The variation of hardness and elastic modulus are simulated from the load-displacement response and the projected area of contact at the maximum load. In this study, Tersoff potential function is employed to describe the molecular behavior of nano-scale carbon and silicon films. The MD models of the diamond indenter and film are applied in the simulation. Due to the hardness different, the diamond indenter can be assumed rigid when silicon thin film was test. However, the indenter¡¦s wear and compressive effects can not be ignored when diamond film were studied under nanoindentation simulation. The indentation parameter in the simulation includes substrate size, indentation velocity, peak hold time, system temperature, indentation depth, local void size, void position and vacancy rate. The results show that the hardness and elastic modulus of thin film may decrease significantly with considering the existence of local defect. The results also elucidated that the elastic modulus and hardness for perfect lattice structure thin films should be the upper bond value of the real bulk material.

molecular dynamics

nanoindentation

elastic modulus

hardness

local defect

The strengthening effect of hot work subgrains.

Kosik, O. To

January 1970

No description available.

Metals -- Testing

Hardness -- Testing

Metals -- Heat treatment

Physical metallurgy

Crystallization

Wear, Friction and High Shear Strain Deformation of Metallic Glasses

Pole, Mayur

05 1900

In this work, wear and scratch behavior of four different bulk metallic glasses (BMGs) namely Zr41.2Cu12.5Ni10Ti13.8Be22.5 (LM 1), Zr57Cu15.4Ni12.6Al10Nb5 (LM 106), Ni60Pd20P17B3 (Ni-BMG), and Pt57.5Cu14.7Ni5.3P22.5 (Pt-BMG) were compared. Shear band formation on the edges of the scratch groove with spallation was found to be the primary failure mechanism in progressive scratch tests. The wear behavior and the scratch response of model binary Ni-P metallic glasses was systematically studied as a function of composition, with amorphous alloy formation over the narrow range of 10 at% to 20 at% phosphorus. Pulsed current electrodeposition was used to obtain these binary amorphous alloys, which offers a facile and versatile alternative to conventional melt quenching route. The electrodeposited metallic glasses (EMGs) showed hardness values in the range of 6.6-7.4 GPa, modulus in the range of 155-163 GPa, and friction coefficient around 0.50. Among the studied alloys, electrodeposited Ni80P20 showed the lowest wear rate. The wear mechanism was determined to be extensive plastic deformation along with mild ploughing, micro tears, and formation of discontinuous lubricious oxide patches. The effect of phosphorus content on the structure, mechanical properties, and the tribological response was systematically investigated for biocompatible Co-P metallic glasses. With increase in phosphorus content, there was an increase in hardness, hardness/modulus, wear resistance, and scratch resistance following the trend: Co80P20 > Co90P10 > Pure Co. The Co-P electrodeposited amorphous alloys showed enhanced wear resistance that was two orders of magnitude better than SS 316 and Ti-based alloys in simulated physiological environment. The wear mechanisms were determined to be a combination of abrasive and surface fatigue wear in both dry and physiological environments. Decreased platelet adhesion and more extracellular matrix deposition indicated that Co80P20 electrodeposited alloy had excellent blood compatibility and pre-osteoblast adhesion response. These results suggest the potential use of Co-P metallic glasses as superior bio implant materials with better durability compared to the state-of-the-art.

BMGs

EMGs

Tribology

hardness

wear

friction

scratch

Engineering, Materials Science

An investigation of nonlinear tip-sample force models for nanoindentation

Hazra, Siddharth.

January 2007

Thesis (M.S.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed on March 27, 2008) Includes bibliographical references.

The microhardness of cementum and dentin a thesis submitted in partial fulfillment ... periodontics ... /

Rautiola, Clifton A.

January 1960

Thesis (M.S.)--University of Michigan, 1960.

Investigations in the correlation between hardness and flexural strength of composite resin restorative materials /

Roeske, Svenja.

January 1900

Diss. med. dent. Zürich. / Literaturverz.

Efeito das técnicas de desinfecção sobre a dureza e rugosidade superficial dos materiais reembasadores

Pavan, Sabrina [UNESP]

18 February 2003

Made available in DSpace on 2014-06-11T19:28:55Z (GMT). No. of bitstreams: 0 Previous issue date: 2003-02-18Bitstream added on 2014-06-13T19:16:52Z : No. of bitstreams: 1 pavan_s_me_arafo.pdf: 776969 bytes, checksum: 2a333e8745a98776862d0b115402f9c3 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O objetivo deste estudo foi avaliar o efeito de técnicas de desinfecção utilizando soluções de glutaraldeído 2%, hipoclorito de sódio 5%, clorexidina 5% e energia por microondas sobre a dureza e rugosidade de superfície dos materiais reembasadores macios Ufi Gel , Molloplast-B, Eversoft e Mucopren soft. Quarenta corpos-de-prova de cada material com dimensões de 36x7x6 mm foram processados em muflas plásticas para microondas e polimerizados de acordo com as recomendações dos fabricantes. As amostras foram divididas em grupos (n=10) e submetidas à desinfecção por 10 minutos nas soluções químicas e, em forno de microondas doméstico por período de 3 minutos à 500W. As leituras de dureza e rugosidade foram realizadas 24 horas após a confecção dos corpos de prova e após aplicação do 1° e 2° ciclo de desinfecção, respectivamente. As leituras de dureza foram realizadas sobre uma das faces do corpo de prova com auxílio de durômetro Shore A. Sobre a face oposta foram realizadas as leituras de rugosidade com rugosímetro Surf-Corder SE 1700. Os dados obtidos foram submetidos à análise de variância e teste de Tukey ao nível de significância de 1%. Conclui-se que a aplicação de dois ciclos de desinfecção não produziu alterações na dureza dos materiais utilizados. Porém, houve diminuição na rugosidade após o primeiro ciclo de desinfecção. A técnica de desinfecção com solução de glutaraldeído 2% promoveu os maiores valores de dureza nos materiais Molloplast-B, Mucopren soft e Ufi Gel. Já o material Eversoft não apresentou alteração nos valores de dureza e rugosidade de superfície em nenhuma das técnicas de desinfecção. / The aim of this study was to assess the effect of disinfections with 2% glutaraldehyde, 5% sodium hypoclorite, 5% chlorhexidine solution and microwave oven on hardness and roughness of soft denture liners Ufi Gel, Molloplast-B, Eversoft and Mucopren soft. Forty samples (36x7x6 mm) of each material were processed in special microwave flasks according to manufacturers' recommendation. Ten specimens of each material were immersed in each disinfectant solution for ten minutes or placed in a microwave oven for 3 minutes at 500W. The surface roughness and hardness values were recorded after 24 hours (control), and also at each two cycles of disinfection. Hardness readings were made on the sample surface with Shore A durometer according to the ASTM D-2240 specifications. The surface roughness was verified on the other surface using a Surf-Coder SE 1700 perfilometer. Data were submitted at analysis of variance and Tukey's test to 1% of level. The application of two disinfection cycles did not change the hardness values significantly. However, after the first cycle of disinfection, means of surface roughness were lower than those observed for the control. The glutaraldehyde solution promoted the highest values of hardness on Molloplast-B, Mucopren soft and Ufi Gel materials. The Eversoft did not show changes in hardness and surface roughness independent of disinfection technique.

Prótese dentária

Materiais dentários

Denture liners

Disinfection

Hardness

Roughness