Comparison of Calcium Hydroxide Extrusion with Syringe vs Spiral Filler Delivery: A Pilot Study

Lai, Gordon San

01 January 2020

Introduction: The aim of this study was to evaluate the frequency and amount of Ca(OH)2 extrusion in relation to the intracanal delivery technique, apical foramen size, and depth of placement. Methods: Standardized training blocks with j-shaped canals were used (n=64); half of the simulated canals were shaped to apical size #35(.06 taper) and the remaining 32 to #45(.06). The frequency and extent of Ca(OH)2 extrusion were measured relative to apical taper, the depth of insertion, and whether syringe or spiral filler was used. Blocks were immersed in pH-sensitive gel and observed for color change. The visible extent of extrusion, indicated by color change, was determined as area and expressed in mm2. Results: Extrusion of Ca(OH)2 occurred in 48/64 of the samples. At 3mm from the canal terminus, the device type had a significant effect on the frequency of extrusion, with syringe placement causing extrusion significantly (p<0.01) more frequently, irrespective of device size. Amounts of extrusion were significantly larger at 2mm short of the canal terminus (median 27.44mm2, IQR 10.02), compared to 3mm distance (median 19.69mm2, IQR 25.07; p<0.0001). Analyzed separately at 2 and 3mm distance, respectively, there was significantly more extrusion with placement using a syringe size #35 compared to spiral filler size #45. Conclusions: Considering the limits of the in vitro experimental design, a spiral filler at 500rpm, placed 3mm short of the apex found to minimize extrusion of Ca(OH)2 placed in root canals.

Calcium hydroxide

extrusion injury

overfill

spiral filler

syringe

Dentistry

Endodontics and Endodontology

Effect of Silica Filler on the Mechanical Properties of Silicone Maxillofacial Prothesis

Yeh, Hsin-Chi

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Background: VST-50 (a room temperature-vulcanizing silicone (RTV) by Factor II Inc.) has long been proposed as a potential alternative material for MDX4-4210, another RTV by Dow Corning Corp. and the current material of choice for maxillofacial prosthesis. Though VST-50 has similar chemistry and flexibility as MDX4-4210, its mechanical properties is still too low for it to be used in the clinic. An improvement in the mechanical property of VST-50 is a critical step to bring the material to clinical application. Objective: To investigate the effect of AEROSIL® R 812S (colloid silica) addition on the mechanical properties of VST-50 and compared to that of MDX4-4210. Methods: The VST-50 was mixed with AEROSIL® R 812S at 2 or 4 parts per hundred parts of rubber. That material was mixed with the catalyst under vacuum. The mixture was poured onto a machined plastic mold to produce a silicone sheet 3.0 ± 0.2 mm thick. All samples were prepared by manufacturer recommended method. Testing samples were prepared and tested following ISO 37 for tensile strength, ASTM D624 for tear strength and ASTM D2240 for shore A hardness test. One way ANOVA was used to compare the groups (Alpha=0.05). Result: Significant differences (P<0.001) were found between MDX4-4210 and modified VST-50 groups. The mean value of tensile strength, tear strength and hardness of VST-50 (4phr colloid silica) were 7.43(MPa), 34.82(N/mm) and 40.4 respectively, compared to MDX4-4210 were 3.67(MPa), 5.48(N/mm) and 31.5, respectively. Conclusion: Modified VST-50 with 4phr silica revealed improved mechanical properties to use as a maxillofacial prosthetic silicone elastomer.

Silica filler

Silicone

Maxillofacial prosthesis

Silicone Elastomers -- chemistry

Dimethylpolysiloxanes -- chemistry

Mechanical Phenomena

Maxillofacial Prosthesis

Dental Materials

Curing Characteristics of Photopolymer Resin With Dispersed Glass Microspheres in Vat Polymerization 3D Printing

Liang, Jingyu

07 July 2023

The curing characteristics of photopolymer resin determine the relationship between the vat polymerization (VP) process parameters and the layer thickness, geometric accuracy, and surface quality of the 3D printed specimen. Dispersing filler material into the photopolymer resin changes its curing characteristics because the filler scatters and absorbs light, which modifies the curing reaction. However, the ability to cure photopolymer resin with high filler volume fraction is important to 3D print material specimens for specific engineering applications, e.g. structural polymer composite materials, electrical and thermal conductive materials, and ceramic materials for biological and high-temperature environments. We methodically measure the curing characteristics of diacrylate/epoxy photopolymer resin with dispersed glass microspheres. The experiments show that the curing depth, degree-of-cure, and surface roughness depend on both the light exposure dose and the filler fraction. We determine that the degree-of-cure increases with increasing filler fraction for constant exposure dose, and approaches 90% with increasing exposure dose, independent of the filler fraction. The geometric accuracy of the 3D printed specimens decreases with increasing exposure dose and with increasing filler volume fraction due to so-called profile broadening. Finally, we show that the average surface roughness of the 3D printed specimens decreases with increasing exposure dose and filler fraction. This work has implications for VP of photopolymer resins with high filler fraction. / Master of Science / Photopolymer resin is a gel-like liquid material that hardens (cures) into solid after absorbing light energy, and such a material is often used in the field of additive manufacturing (3D printing) to create complex geometry. Certain types of filler materials, such as metal powder or carbon fiber, can be added into the photopolymer resin to tailor the material properties, and thus, affects the curing behavior of photopolymer resin mixed with these filler materials. We conducted an experiment to understand how adding glass microspheres to a consumer grade photopolymer resin affects the process of creating 3D objects. This is important in the context of 3D printing engineered composite materials that derive their function from the organization and orientation of filler material in a matrix. To do this, we created many samples in the shape of a "VT" logo using the composite resin we made and measured their thickness (curing depth), degree-of-cure, surface roughness, and geometric accuracy, as a function of the amount of light energy being exposed to the resin (exposure dose) and the amount of the glass filler being added into the resin (filler fraction). We observed that when we increased the amount of light exposure, it resulted specimens that are thicker and more in degree of cure. Adding the glass filler to the liquid had mixed effects on the hardening process, because glass can scatter light and change how light travels within the resin. As a result, the printed objects became less accurate in shape and have smoother surface with increasing exposure dose and filler fraction, because more light is scattered off the designed curing profile and unintentionally cured the surrounding resin.

Vat polymerization

photopolymer

glass microspheres

filler material

degree of cure

curing depth

surface roughness

The Effect of the Semantic Depth of Spanish Verbs on Processing Demands of Filler-Gap Relationships in Noun Clauses

Jessen, Ashlee Marie

11 December 2012

This study explored the relationship between syntax and semantics in an effort to provide evidence against a strict theory of the Autonomy of Syntax. The evidence was provided by an acceptability survey given to 20 native, adult Mexicans who ranked both declarative and wh-questions which manifested a filler-gap relationship where the gap was located in an embedded noun clause. The main verbs were controlled for semantic depth by being ranked within verbal categories according to external evidence of markedness or semantic depth. The primary hypothesis was that semantically deeper verbs would add to the already increased strain on working memory associated with filler-gap processing, thereby resulting in decreased acceptability. The results of the survey showed that, while this hypothesis held true to some degree, further research will be required to confirm the results and to further understand the intricate interactions between syntax and semantics.

Autonomy of syntax

semantic depth

markedness

wh-movement

filler-gap

processing

working memory

Approaches to Enhance Filler-Polymer Interactions and Cure Properties of Rubber Compounds

Albehaijan, Hamad A.

January 2017

No description available.

Polymers

Solidification Cracking Performance and Metallurgical Analysis of Filler Metal 82

Orr, Michael Romanoff

January 2016

No description available.

Metallurgy

ERNiCr-3

Filler Metal 82

Cast Pin Tear Test

Solidification Cracking

Physical properties of experimental composite formulations with varying resin matrix and filler fraction

Leyva del Rio, Diana

January 2021

No description available.

Dentistry

Fundamental Importance of Fillers, Cure Condition, and Crosslink Density on Model Epoxy Properties

Case, Sandra Lynn

10 July 2003

The influence of silane treated amorphous fumed silica fillers on properties of the cured epoxy was examined in the first part of the study. Silica particles were treated with 3- aminopropyldiethoxymethylsilane (APDS) and 3-aminopropyltriethoxysilane (APTS) coupling agents. The filler and coupling agents decreased the mobility of the polymer chains in the vicinity of the filler leading to an increase in the activation energy for the glass transition and an increase in cooperativity. Fumed silica did not significantly affect moisture diffusion properties. Next, a linear dilatometer was used to investigate the effects of cure conditions, mold types, and the presence of filler in the model epoxy. These studies revealed that there was substantial shrinkage in the cured epoxy on heating it through its glass transition region. The shrinkage was determined to be the result of stress in the epoxy generated during cure and could be minimized by curing at lower temperatures, followed by a postcuring heat treatment. Additional free volume in the sample increased the magnitude of the shrinkage by allowing increased stress release through increased network mobility. Decreasing the polymer mobility by adding fillers decreased the observed shrinkage. The influence of the model epoxy crosslink density was examined by varying the content of 1,4-butanediol in the model system. Addition of 1,4-butanediol led to a decrease in the modulus and glass transition temperature, which resulted in a reduction in residual stress and subsequent shrinkage. Moisture uptake increased with the addition of 1,4-butanediol due to an increase in the free volume of the epoxy. However, even with greater moisture uptake, the addition of 1,4-butanediol to the epoxy increased its adhesion to quartz by promoting lower residual stress and increased energy dissipation. These results indicate that bulk diffusion of water is not the controlling factor in adhesive degradation in this system. / Ph. D.

dilatometry

moisture uptake

cooperativity

silane coupling agent

residual stress

epoxy

adhesion

crosslink density

silica filler

Utveckling av stabila och hållbara kartongmodeller : En studie av förpackningsmodeller som alternativ till traditionella fillers / Development of stable and sustainable cardboard models : A study of packaging models as alternatives to traditional fillers

Arman, Rahman, Elmi, Amal

January 2024

This study focuses on addressing inefficiencies in packaging processes at Spaljisten AB caused by extensive filler usage, aiming to enhance efficiency and reduce environmental impact. After a thorough review of existing literature and packaging techniques, four alternative packaging models were evaluated through SWOT analyses. Model 3, utilizing tabs to fold cardboard edges for product protection, emerged as the most promising solution, balancing efficiency, sustainability, and technical feasibility by significantly reducing fillers dependency and waste. Further research is suggested to explore scalability and long-term sustainability, ensuring Spaljisten AB meets evolving market demands and consumer expectations for sustainability.

Packaging

cardboard model

Sustainability

Filler

Förpackning

Kartongmodell

Hållbarhet

Fillers

Mechanical Engineering

Maskinteknik

Self-assembled 0D/2D nano carbon materials enabled smart and multifunctional cement-based composites

Dong, S., Li, L., Ashour, Ashraf, Dong, X., Han, B.

05 November 2020

Yes / In this paper, two types of nano carbon materials including 0D nano carbon black and 2D graphene are assembled through electrostatic adsorption to develop smart cement-based composites. Owing to their excellent mechanical, electrical properties and synergistic effect, self-assembled 0D/2D nano carbon materials can form toughening and conductive networks in cement-based materials at low content level and without changing the preparation process of conventional cement-based materials, thus endowing cement-based materials with smart and multifunctional properties including high toughness, self-sensing property to stress/strain and damage, shielding/absorbing property to electromagnetic wave. The developed smart cement-based composites with self-assembled 0D/2D nano carbon materials have promising application in the fields of oil well cementing, structural health monitoring, and electromagnetic protection and anti-electromagnetic pollution. It can therefore conclude that electrostatic self-assembled 0D/2D nano carbon materials provide a simple preparation method and excellent composite effect for developing nano cement-based materials, which can be applied in large-scale infrastructures. / The National Science Foundation of China (51908103) and the China Postdoctoral Science Foundation (2019M651116).

Cement-based composites

Toughness

Self-sensing

Shielding/absorbing properties