Your search keyword '"structural coloration technology"' showing total 3 results

1. Evaluation of the Repolished Surface Properties of a Resin Composite Employing Structural Coloration Technology

Author

Mayumi Maesako, Takafumi Kishimoto, Shigetaka Tomoda, Taku Horie, Mitsuyoshi Yamada, Rika Iwawaki, Yukari Odagiri, Keiko Sakuma, Kazuho Inoue, Ayumi Takeguchi, Miki Suzuki, Akio Mitani, and Morioki Fujitani

Subjects

resin composite, structural coloration technology, repolishing, surface property, alkaline degradation, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Resin composites employing structural coloration have recently been developed. These resins match to various tooth shades despite being a single paste. To accomplish this, the filler and base resin are tightly bonded, which is thought to provide excellent discoloration resistance. Here, we investigated the surface properties of one of these resins, including the discoloration of the repolished surface. We developed an innovative in vitro method to adjust the repolished surface, in which structural degradation is removed according to scanning electron microscopy (SEM) observation rather than by the naked eye. The resin samples (20 mm (length) × 10 mm (width) × 4 mm (depth)) were manufactured using this resin material. After accelerated aging of the resin by alkaline degradation, the resin was repolished and the discoloration (ΔE*ab), surface roughness (the arithmetic mean roughness (Ra)), and glossiness (the 60° specular) were measured. SEM observation showed that the appearance of the bond between the organic composite filler and base resin on the repolished surface was different from that on the mirror-polished surface. This revealed that according to our in vitro method it was difficult to make the repolished surface structurally identical to the mirror-polished surface. Among the properties of the repolished surface, the degree of discoloration did not change despite the rougher and less glossy surface. It can be concluded that the factors that induce discoloration in this resin composite are independent of the surface roughness and glossiness.

Published

2021

2. Evaluation of the Repolished Surface Properties of a Resin Composite Employing Structural Coloration Technology

Author

Akio Mitani, Morioki Fujitani, Yukari Odagiri, Miki Suzuki, Taku Horie, Ayumi Takeguchi, Rika Iwawaki, Mitsuyoshi Yamada, Kazuho Inoue, Keiko Sakuma, Takafumi Kishimoto, Mayumi Maesako, and Shigetaka Tomoda

Subjects

Technology, Materials science, Base (chemistry), surface property, Scanning electron microscope, Composite number, alkaline degradation, Surface finish, Article, structural coloration technology, Surface roughness, repolishing, General Materials Science, Specular reflection, Composite material, resin composite, chemistry.chemical_classification, Microscopy, QC120-168.85, QH201-278.5, Engineering (General). Civil engineering (General), Accelerated aging, TK1-9971, chemistry, Descriptive and experimental mechanics, Electrical engineering. Electronics. Nuclear engineering, TA1-2040, Structural coloration

Abstract

Resin composites employing structural coloration have recently been developed. These resins match to various tooth shades despite being a single paste. To accomplish this, the filler and base resin are tightly bonded, which is thought to provide excellent discoloration resistance. Here, we investigated the surface properties of one of these resins, including the discoloration of the repolished surface. We developed an innovative in vitro method to adjust the repolished surface, in which structural degradation is removed according to scanning electron microscopy (SEM) observation rather than by the naked eye. The resin samples (20 mm (length) × 10 mm (width) × 4 mm (depth)) were manufactured using this resin material. After accelerated aging of the resin by alkaline degradation, the resin was repolished and the discoloration (ΔE*ab), surface roughness (the arithmetic mean roughness (Ra)), and glossiness (the 60° specular) were measured. SEM observation showed that the appearance of the bond between the organic composite filler and base resin on the repolished surface was different from that on the mirror-polished surface. This revealed that according to our in vitro method it was difficult to make the repolished surface structurally identical to the mirror-polished surface. Among the properties of the repolished surface, the degree of discoloration did not change despite the rougher and less glossy surface. It can be concluded that the factors that induce discoloration in this resin composite are independent of the surface roughness and glossiness.

Published

2021

3. Evaluation of the Repolished Surface Properties of a Resin Composite Employing Structural Coloration Technology.

Author

Maesako, Mayumi, Kishimoto, Takafumi, Tomoda, Shigetaka, Horie, Taku, Yamada, Mitsuyoshi, Iwawaki, Rika, Odagiri, Yukari, Sakuma, Keiko, Inoue, Kazuho, Takeguchi, Ayumi, Suzuki, Miki, Mitani, Akio, and Fujitani, Morioki

Subjects

*SURFACE properties, *SURFACE roughness, *SCANNING electron microscopy, *ADHESION, *ARITHMETIC mean, *DETERIORATION of materials

Abstract

Resin composites employing structural coloration have recently been developed. These resins match to various tooth shades despite being a single paste. To accomplish this, the filler and base resin are tightly bonded, which is thought to provide excellent discoloration resistance. Here, we investigated the surface properties of one of these resins, including the discoloration of the repolished surface. We developed an innovative in vitro method to adjust the repolished surface, in which structural degradation is removed according to scanning electron microscopy (SEM) observation rather than by the naked eye. The resin samples (20 mm (length) × 10 mm (width) × 4 mm (depth)) were manufactured using this resin material. After accelerated aging of the resin by alkaline degradation, the resin was repolished and the discoloration (ΔE*ab), surface roughness (the arithmetic mean roughness (Ra)), and glossiness (the 60° specular) were measured. SEM observation showed that the appearance of the bond between the organic composite filler and base resin on the repolished surface was different from that on the mirror-polished surface. This revealed that according to our in vitro method it was difficult to make the repolished surface structurally identical to the mirror-polished surface. Among the properties of the repolished surface, the degree of discoloration did not change despite the rougher and less glossy surface. It can be concluded that the factors that induce discoloration in this resin composite are independent of the surface roughness and glossiness. [ABSTRACT FROM AUTHOR]

Published

2021