Semi-interpenetrating network composites reinforced with Kevlar fibers for dental post fabrication

Almaroof, Ahmed; Ali, Ahmed H.; Mannocci, Francesco; Deb, Sanjukta

doi:10.4012/dmj.2018-040

Cited by 16 publications

(13 citation statements)

References 45 publications

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“…The experimental KF posts were prepared from surface treated Kevlar fibers and Bis-GMA/TEGDMA/PMMA semi-IPN polymer matrix as described earlier by Almaroof et al (9). A total of 40 posts with a diameter of 1.5 mm were used for the test; 20 ES (GC Corporation, Tokyo, Japan) and 20 KF posts both consisting of the semi-IPN matrix polymer.…”

Section: Methodsmentioning

confidence: 99%

“…In our previous study, a new post material based on the semi-interpenetrating polymer network (IPN) reinforced with Kevlar fibers was reported (9). The ability of Kevlar fibers to reinforce polymeric matrices prompted the study and were used to reinforce 2, 2-Bis [4- (2-hydroxy-3 methacryloyloxypropyl)-phenyl] propane (Bis-GMA) and tri-ethylene glycol dimethacrylate (TEGDMA)/ Polymethyl methacrylate (PMMA) semi-IPN matrix with titanium dioxide (TiO2) nanofiller composite and characterized to function as a new intracanal fiber post.…”

Section: Introductionmentioning

confidence: 99%

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Bond strength of a new Kevlar fiber-reinforced composite post with semi-interpenetrating polymer network (IPN) matrix

2019

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BackgroundThis study aimed to evaluate the bond strength and the penetration depth of two adhesive systems to a new experimental semi-IPN fiber post versus a commercial post.Material and MethodsExperimental Kevlar fiber (KF) and control everStick®POST (ES) posts (n=20/ group) with a diameter of 1.5 mm were used, 10 posts coated with StickResin (SR) and the other 10 posts coated with Scotch bond multipurpose (SBMP) adhesives. Composite resin buildup was performed over each post, using a cylindrical plastic mold (10 mm × 6 mm). Four discs of 2 mm thickness were prepared from each post/composite buildup and underwent pushout bond strength test at a crosshead speed of 0.5 mm/min accompanied by failure mode analysis. A further three specimens from each subgroup were bonded with adhesives labeled with 0.1 wt% Rhodamine B and embedded in acrylic resin, sectioned and examined under a confocal Laser-scanning microscope (CLSM) to measure the depth of resin penetration. Statistical analysis included ANOVA and Tukey test, the significance level was assumed at a p-value less than 0.05.ResultsThe push-out bond strength of KF was comparable to that of ES with both SBMP and SR adhesives (P >0.05). Bond strength value for SBMP was higher than SR adhesive in either ES and KF posts with no significant difference (P > 0.05). ES exhibited higher adhesive penetration depth compared with KF (p<0.05).ConclusionsThe bond strength of Kevlar post was comparable with the everStick post and the semi-interpenetrating structure of Kevlar post displayed some adhesive monomers diffusion indicating its usefulness as a new intracanal post. Key words:Kevlar fiber post, Bond strength, Penetration depth, Confocal, Semi-IPN polymer system.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bond strength of a new Kevlar fiber-reinforced composite post with semi-interpenetrating polymer network (IPN) matrix

2019

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“…Unidirectional E-glass fibres bundles with 8-15μm filament diameter and 2,58 g/cm3 density which their chemical composition mention in (Table1) was treated by 99.9% acetic acid (Chem-Lab NV, Belgium) for 2h at 55 °C, washed three times with purified water and dried in the incubator for 8 h at 50 ° C. A part of the acetic acidtreated glass fiber was further exposed to wet salination by means of 2% of 3-methacryloxyproyltrimethoxysilane silane coupling agent A-174 (Sigma-Aldrich, Germany) in an ethanol-water mixture (90/10 w/w) acidified to pH 3.8 and maintained at this level with glacial acetic acid. The glass fiber was processed for 1 h in this solution and then dried for two h at 110 ° C before usage, as in previous studies [13,14] . The fiber's surface texture and morphology were examined by scanning electron microscopy (TESCAN VEGA III, TESCAN, Czech Republic) with an accelerating voltage of 5KeV as well as a magnification of (1Kx, 2Kx, and 5Kx).…”

Section: Preparation Of the Experimental Specimensmentioning

confidence: 99%

“…The impregnation procedure of the fiber to resin cement base on hand lay-up moulding technique was the first step in fabrication [13] , in which the PTFE mould fixed to a glass slide and Mylar strip, then the resin cement and the treated fiber added and painting layer by layer until the mould filling. Later, another mylar strip and glass slide were positioned over the mould and pressed with (1 Kg) weight to level up the specimen surface and prevents the development of bubbles and an oxygen-inhibited layer.…”

Section: Preparation Of the Experimental Specimensmentioning

confidence: 99%

Development and Assessment of New Bioactive Glass Fiber Post. Part II: Ion’s Release

Altamimi,

Majeed

2021

Indian Journal of Forensic Medicine & Toxicology

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Objectives: This study was designed to develop and assess the ions release property of an innovative experimental bioactive fiber-reinforce composite as a new material for an intra-canal post. Study Design: An in vitro studyMaterials and Methods: Surface treated unidirectional E-glass fiber were impregnated and implanted with a triple cure, self-adhesive ACTIVA BioACTIVE resin cement to fabricate an experimental bioactive glass fiber post using hand lay-up moulding technique and polytetrafluoroethylene (PTFE) moulds, The cylindrical and rectangular form specimens were prepared, for each specimen, ensure 3min for self-cure setting, then light-cured for the 40s. The specimens were individually immersed in a deionized (DI) water, and sodium chloride solution to assess the fluoride ion release, and calcium-phosphate ions release sequentially. Virgin ACTIVA BioACTIVE cement was used as a reference group for all investigations.Statistical analysis used: Statistical analysis was achieved by means of independent variable t-test, oneway ANOVA, and Bonferroni Pairwise comparisons utilizing IBM-SPSS software.Results: Experimental material recognized a significant reduction in F -, Ca +2, and PO 4 3release after reinforcement compared to virgin ACTIVA BioACTIVE. Conclusions:The ACTIVA BioACTIVE cement's reinforcement process reduced the ion release intensity of the material but not affected the releasing pattern.

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“…For mechanical testing, three-point bending tests have been universally used to test the flexural properties of composite materials. Previously, many studies which compare cross-linked polymer FRC to IPN FRC, have been done and the mechanical properties of FRC materials evaluated [ 4 , 12 , 13 ]. The fracturing of FRC caused by biting forces should be avoided, especially in the posterior molar areas.…”

Section: Introductionmentioning

confidence: 99%

Effect of Interpenetrating Polymer Network (IPN) Thermoplastic Resin on Flexural Strength of Fibre-Reinforced Composite and the Penetration of Bonding Resin into Semi-IPN FRC Post

et al. 2021

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The purpose of this study was to evaluate the effects of interpenetrating polymer network (IPN) thermoplastic resin on the flexural strength of fibre-reinforced composite (FRC) with different IPN polymer compositions. The penetration of bonding resin into semi-IPN FRC posts was also evaluated. The IPN thermoplastic resin used was UDMA-MMA monomer with either PMMA (0.5%, 2%, 5%) or PMMA-copolymer (0.5%, 2%). A no added IPN polymer resin was also made. Mixed resin was impregnated to S- and E-glass fibre rovings. These resins and resin impregnated fibres were used for flexural strength (FS) test. To evaluate the penetration of bonding resin into semi-IPN post, SEM observation was done with various impregnation time and polymerization mehods (hand-light- and oven-cure). The result of FS was recorded from 111.7 MPa (no-IPN polymer/no-fibre-reinforcement) to 543.0 MPa (5% PMMA/S-glass FRC). ANOVA showed that there were significant differences between fibre-reinforcement and no-fibre-reinforcement (p < 0.01) both in S- and E-glass fibre groups, and between 0.5% PMMA and 5% PMMA in the S-glass FRC group. SEM micrographs showed that the penetration layers of bonding resin into hand-light cured semi-IPN posts were different according to impregnation time. Fibre reinforcement is effective to improve flexural strength. The depth of penetration layer of bonding resin into semi-IPN matrix resin was improved when a hand-light cure was used.

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Semi-interpenetrating network composites reinforced with Kevlar fibers for dental post fabrication

Cited by 16 publications

References 45 publications

Bond strength of a new Kevlar fiber-reinforced composite post with semi-interpenetrating polymer network (IPN) matrix

Bond strength of a new Kevlar fiber-reinforced composite post with semi-interpenetrating polymer network (IPN) matrix

Development and Assessment of New Bioactive Glass Fiber Post. Part II: Ion’s Release

Effect of Interpenetrating Polymer Network (IPN) Thermoplastic Resin on Flexural Strength of Fibre-Reinforced Composite and the Penetration of Bonding Resin into Semi-IPN FRC Post

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