Mechanical properties of bioactive glasses, ceramics, glass-ceramics and composites: State-of-the-art review and future challenges

Kaur, Gurbinder; Kumar, V. Ravi; Baino, Francesco; Mauro, John C.; Pickrell, Gary; Evans, Iain; Bretcanu, Oana

doi:10.1016/j.msec.2019.109895

Cited by 208 publications

(106 citation statements)

References 122 publications

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“…Considering the investigations by many researchers, bioactive glasses possess potential of many wide applications such as the formation of HCA and bone, but their use as materials for coating, is more attractive than other applications, especially when they are used as an implant. Their mechanical integrity becomes important [102][103][104][105] when they are used as coating on tougher substrate [106][107][108]. The studies about coatings have proved that depending on the approach of coatings and deposition, the main chemical and physical characteristics will change [109][110][111][112][113].…”

Section: Bioactive Glass Coatingmentioning

confidence: 99%

Bioactive Glass Coated Zirconia for Dental Implants: a review

Zhang

2020

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Nowadays, zirconia has got extensive attention for dental implants, although it has disadvantages such as poor mechanical properties and brittleness that makes it unsuitable. On the other hand, bioactive glasses coating have been utilized on tougher substrates such as zirconia. Bioactive glass coatings can decrease the healing time and hence accelerate the formation of the bond between bone and implant. Hence in this study, we introduce the novel zirconia/bioactive glass composites with high mechanical strength and bioactivity to achieve the ideal implant dentistry. Furthermore, a review of bioactive glass coatings (i.e., 45S5 and 58S) on zirconia as well as surface modification methods (i.e., sol-gel, laser cladding, plasma spraying, etc.) is provided.

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Section: Bioactive Glass Coatingmentioning

confidence: 99%

Bioactive Glass Coated Zirconia for Dental Implants: a review

Zhang

2020

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“…The first bioactive glass was developed by Prof. Larry Hench in 1969 and has been widely used since the 80s because of its high biocompatibility. However, due to its high crystallization tendency and consequently limitation in applications that require heat treatments, many other glasses with distinct compositions has been also largely investigated …”

Section: Introductionmentioning

confidence: 99%

“…However, due to its high crystallization tendency and consequently limitation in applications that require heat treatments, many other glasses with distinct compositions has been also largely investigated. [1][2][3][4] Glasses as a versatile material accept a large range of distinct cations in its structure and can be easily modified. However, the complexity in designing brand-new compositions as Bioglass ® 45S5 is mainly due to the fact that a number of components involved results in being more difficult to control the relationship between composition, structure, and bioactivity.…”

Section: Introductionmentioning

confidence: 99%

Structural and thermal behavior of 45S5 Bioglass^®‐based compositions containing alumina and strontium

et al. 2020

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The present research exposes the influence of 2 mol% of Al2O3 and 2 mol% SrO in 45S5 Bioglass®‐based compositions. Four compositions were produced to elucidate the difference in how both oxides influence structure and thermal behavior separately and their synergy when together. Thermal properties, crystallization tendency, and sintering behavior was evaluated by differential scanning calorimetry, hot stage microscopy, and dilatometry. Changes of medium‐range structures were characterized by Qn distribution of Raman spectroscopy and evaluation of 31P, 27Al, 23Na, and 29Si environment obtained by magic angle spinning nuclear magnetic resonance. Despite Qn distribution was predominantly Q2 in all samples, the composition criteria used enabled improved processing and stabilibity characteristics. The addition of Al2O3 and SrO promoted larger sinterability parameter (Sc) which indicates better sintering behavior, the glass stability against crystallization doubled (KH) compared to 45S5 and the processing window enlarged from 106 to 171.

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“…Most of them are characterized by sudden temperature changes, phase transitions, and/or rapid kinetic deposition on coated surfaces. This often leads to the formation of disordered, porous, amorphous-crystalline hydroxyapatite structures, with a high degree of defect (i.e., cracks), low cohesion, and mediocre adhesion-due to mismatching of the physicochemical properties of coatings compared to metallic substrates [23,24]. There is also a tendency to dissolve HAp coatings due to their biochemical interaction with the living tissue, which can lead to the exposure of the implant's metallic substrate [10].…”

Section: Introductionmentioning

confidence: 99%

Comparison of Mechanical and Barrier Properties of Al2O3/TiO2/ZrO2 Layers in Oxide–Hydroxyapatite Sandwich Composite Coatings Deposited by Sol–Gel Method on Ti6Al7Nb Alloy

et al. 2020

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In this study, coatings of different oxides (TiO2, Al2O3, ZrO2) and hydroxyapatite (HAp) as well as sandwich composite hydroxyapatite with an oxides sublayer (oxide+HAp) were deposited on Ti6Al7Nb alloy using the sol–gel dip-coating method. The coatings were characterized in terms of morphology (optical microscope), surface topography (AFM), thickness (ellipsometry), and crystal structure (XRD/GIXRD). The mechanical properties of the coatings—hardness, Young’s modulus, and adhesion to the substrate—were examined using nanoindentation and scratch tests. The barrier properties of the coatings against the migration of aluminum ions were examined by measuring their concentration after soaking in Hank’s balanced salt solution (HBSS) with the use of optical emission spectrometry of inductively coupled plasma (ICPOES). It was found that all the oxide and HAp coatings reduced the permeation of Al ions from the Ti6Al7Nb alloy substrate. The best features revealed an Al2O3 layer that had excellent barrier properties and the best adhesion to the substrate. Al2O3 as a sublayer significantly improved the properties of the sandwich composite HAp coating.

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Mechanical properties of bioactive glasses, ceramics, glass-ceramics and composites: State-of-the-art review and future challenges

Cited by 208 publications

References 122 publications

Bioactive Glass Coated Zirconia for Dental Implants: a review

Bioactive Glass Coated Zirconia for Dental Implants: a review

Structural and thermal behavior of 45S5 Bioglass^®‐based compositions containing alumina and strontium

Comparison of Mechanical and Barrier Properties of Al2O3/TiO2/ZrO2 Layers in Oxide–Hydroxyapatite Sandwich Composite Coatings Deposited by Sol–Gel Method on Ti6Al7Nb Alloy

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Mechanical properties of bioactive glasses, ceramics, glass-ceramics and composites: State-of-the-art review and future challenges

Cited by 208 publications

References 122 publications

Bioactive Glass Coated Zirconia for Dental Implants: a review

Bioactive Glass Coated Zirconia for Dental Implants: a review

Structural and thermal behavior of 45S5 Bioglass®‐based compositions containing alumina and strontium

Comparison of Mechanical and Barrier Properties of Al2O3/TiO2/ZrO2 Layers in Oxide–Hydroxyapatite Sandwich Composite Coatings Deposited by Sol–Gel Method on Ti6Al7Nb Alloy

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Structural and thermal behavior of 45S5 Bioglass^®‐based compositions containing alumina and strontium