Sintering Behavior and Mechanical Properties of Mullite Fibers/Hydroxyapatite Ceramic

Zhao, Xueni; Liu, Qingyao; Yang, Junhong; Zhang, Weigang; Wang, Yao

doi:10.3390/ma11101859

Cited by 10 publications

(8 citation statements)

References 46 publications

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“…The adsorption band at 1075 and 791 cm −1 is due to the bending vibration of Si-O-Si while the band at 960 cm −1 is due to the Si-O vibration in the SiO 2 [36,43,44]. The peaks at 542 cm −1 is associated with the Si-O-Al vibration [24,44]. The band in 400-600 cm −1 region is due to the vibration of the blending of the silico-and alumino-silico oxygen bridges [24,44].…”

Section: Physical Characterization Of Bcpzas@chi/alg-pcl Composite Sc...mentioning

confidence: 97%

“…The peaks at 542 cm −1 is associated with the Si-O-Al vibration [24,44]. The band in 400-600 cm −1 region is due to the vibration of the blending of the silico-and alumino-silico oxygen bridges [24,44]. The FT-IR spectrums for the as-synthesized BCPZAS25, BCPZAS50 and BCPZAS75 composites with Chi/Alg-PCL polymer matrix exhibit the typical absorption bands of BCP (500-1100 cm −1 ), ZAS (400-600 cm −1 ) and of the organic groups in the polymers species.…”

Section: Physical Characterization Of Bcpzas@chi/alg-pcl Composite Sc...mentioning

confidence: 99%

“…ZAS are generally biologically inert, remain stable after being implanted in human body and do not cause any rejection [21][22][23][24][25]. They have been considered as some of the most hopeful candidate materials for reinforcing ceramic materials.…”

Section: Introductionmentioning

confidence: 99%

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Effect of zirconia-mullite incorporated biphasic calcium phosphate/biopolymer composite scaffolds for bone tissue engineering

Rittidach

Tithito²,

Suntornsaratoon³

et al. 2020

Biomed. Phys. Eng. Express

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New bioactive scaffolds with improved mechanical properties, biocompatibility and providing structural support for bone tissue are being developed for use in the treatment of bone defects. In this study, we have synthesized bioactive scaffolds consisting of biphasic calcium phosphate (BCP) and zirconia-MulliteThe composite material scaffolds were prepared by a blending technique. The microstructure, mechanical, bioactivity and in vitro biological properties with different ratios of BCP to ZAS of 1:0, 3:1, 1:1, 1:3 and 0:1 wt% in polymer matrix were analyzed. Microstructure analysis showed a successful incorporation of the BCPZAS particles with an even distribution of them within the polymer matrix. The mechanical properties were found to gradually decrease with increasing the ratio of ZAS particles in the scaffolds. The highest compressive strength was 42.96±1.01MPa for the 3:1 wt% BCP to ZAS mixing. Bioactivity test, the BCPZAS@Chi/Alg-PCL composite could induce apatite formation in simulate body fluid (SBF). In-vitro experiment using UMR-106 osteoblast-like cells on BCPZAS@Chi/Alg-PCL composite scaffold showed that there is cell attachment to the scaffolds with proliferation. These experimental results demonstrate that the BCPZAS@Chi/Alg-PCL composite especially for the BCP: ZAS at 3:1 wt% could be utilized as a scaffold for bone tissue engineering applications.

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Section: Physical Characterization Of Bcpzas@chi/alg-pcl Composite Sc...mentioning

confidence: 97%

Section: Physical Characterization Of Bcpzas@chi/alg-pcl Composite Sc...mentioning

confidence: 99%

See 1 more Smart Citation

Effect of zirconia-mullite incorporated biphasic calcium phosphate/biopolymer composite scaffolds for bone tissue engineering

Rittidach

Tithito²,

Suntornsaratoon³

et al. 2020

Biomed. Phys. Eng. Express

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“…For accuracy, the mean average values of the elastic modulus were calculated from ultrasonication method and nanoindentation curves. The increase in Vickers hardness by means of EB contents is because the hardness of hydroxyapatite contained in EB (nanohardness of 5-6 GPa and Vickers hardness of 460-480 HV) is higher than that of the Ti matrix (nanohardness of ~2 GPa and Vickers hardness of 350-400 HV) [41][42][43][44]. In addition, nanoscale hydroxyapatite was uniformly dispersed in the Ti6Al4V matrix, thereby strengthening particle effects on the hardness increment.…”

Section: Mechanical Propertiesmentioning

confidence: 99%

Microstructure and Mechanical Properties of Titanium–Equine Bone Biocomposites

Jeong

Shin

Choi

2020

Metals

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Microstructure and mechanical properties of Ti-6Al-4V/equine bone (EB) composites fabricated by ball milling and spark plasma sintering (SPS) have been investigated. Ti-6Al-4V/EB composites were successfully fabricated by a planetary ball-milling of spherical Ti6Al4V powder and natural EB powder and SPS at 1000 °C within 15 min under 50 MPa. EB was uniformly dispersed in the Ti6Al4V matrix owing to ball-milling, and beta phase transformation temperature of 1000 °C provided phase stability. The composites containing 0.5 wt.% EB exhibit Vickers hardness and elastic modulus of 540.6 HV and 130.5 GPa, respectively. The microstructures and mechanical properties of the composites were observed using scanning electron micrograph and nanoindentation.

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“…In fact, many methods, including mineralizer addition [8], high solid loading [4], infiltration strengthening [9], as well as fiber or whisker addition [10,11,12], have been used to improve the high-temperature strength of SiO 2 -based ceramic molds in much research. Mullite whisker reinforcement is one of the most effective high-temperature strengthening methods due to its numerous advantages, including high melting point, chemical inertness, and excellent comprehensive mechanical properties [13,14,15] . Mullite whiskers can be either added to or synthesized in SiO 2 -based ceramic.…”

Section: Introductionmentioning

confidence: 99%

Effect of Urchin-Like Mullite Whiskers on the High-Temperature Performance of Porous SiO2-Based Ceramic Molds

Chen

Wan

et al. 2019

Materials

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Urchin-like mullite whiskers synthesized by the vapor–liquid–solid growth method were used to improve the high-temperature performance of porous gelcast SiO2-based ceramic molds. Aluminum was used to facilitate the synthesis of polycrystal urchin-like mullite whiskers which acted as bridges between particles. Scanning electron microscopy (SEM) and X-ray diffraction (XRD) were used to investigate the microstructures and phase compositions of the sintered ceramic samples, respectively. Urchin-like mullite whiskers with diameters of 0.2~1.0 µm and lengths of 1.0~8.0 µm were successfully synthesized in SiO2-based ceramic. When 15 vol% Al was added, the high-temperature strength at 1200 °C was improved from 8.5 to 27.5 MPa, and the creep deformation was decreased to 0.56 mm. Meanwhile, a sintering shrinkage below 0.3% was obtained, and the de-coring rate was accelerated by 67% compared to that of the pure SiO2-based ceramic. This method showed excellent high-temperature strength and high precision, having remarkable potential in the fabrication of hollow turbine blades.

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Sintering Behavior and Mechanical Properties of Mullite Fibers/Hydroxyapatite Ceramic

Cited by 10 publications

References 46 publications

Effect of zirconia-mullite incorporated biphasic calcium phosphate/biopolymer composite scaffolds for bone tissue engineering

Effect of zirconia-mullite incorporated biphasic calcium phosphate/biopolymer composite scaffolds for bone tissue engineering

Microstructure and Mechanical Properties of Titanium–Equine Bone Biocomposites

Effect of Urchin-Like Mullite Whiskers on the High-Temperature Performance of Porous SiO2-Based Ceramic Molds

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