Titlebook: Bioactive Glasses; Potential Biomateria Gurbinder Kaur Book 2017 Springer International Publishing Switzerland 2017 Mesoporous glasses.Drug

爆裂

书目名称Bioactive Glasses影响因子(影响力)




书目名称Bioactive Glasses影响因子(影响力)学科排名




书目名称Bioactive Glasses网络公开度




书目名称Bioactive Glasses网络公开度学科排名




书目名称Bioactive Glasses被引频次




书目名称Bioactive Glasses被引频次学科排名




书目名称Bioactive Glasses年度引用




书目名称Bioactive Glasses年度引用学科排名




书目名称Bioactive Glasses读者反馈




书目名称Bioactive Glasses读者反馈学科排名

自负的人

Biodegradable Metals as Bioactive Materials,in the 1920s, which attracted the attention of many clinical researchers due to its corrosion-resistant properties. Since 2000, the research interest is more inclined toward the synthesis and applications of biodegradable metals.

带子

The Potential of Glasses / Ceramics as Bioactive Materials,ses required in many applications. The use of biodegradable polymer scaffolds for the regeneration of bones is limited and challenging. These polymers lack a mechanically biocompatible hydroxyapatite (HAp) inorganic phase.

对待

Apatites : A Mark of Bioactivity,eramics due to its excellent interaction with the host tissues. The lattice structure of apatites is quite similar to the bones and therefore regarded as a tool for improving bone regeneration and tissue biocompatibility. This chapter would review the apatites, their nature, composition, and deposit

吵闹

Mechanical Behavior of Bioactive Glasses/Ceramics,e attained wide attention as implant materials, especially for the orthopedic applications. For the implant materials, the mechanical behavior of materials should be well understood for predicting the failure and hence crack propagation.

Conflict

Influence of Preparation Techniques on the Properties of Bioactive Glasses,properties such as enhanced hardness, flexural strength, and fracture toughness. In contrast to this, the sol-gel method endows the glass with uniform pore size, homogeneity, high surface area, and enhanced bioactive formation.

滋养

Future Perspectives of Bioactive Glasses for the Clinical Applications,r regenerate defective tissues. Scaffolds, cells, and growth-stimulating signals are the basic components of tissue engineering. However, researchers often encounter an enormous variety of choices when selecting scaffolds for tissue engineering. Typically, glass, ceramics, or polymeric biomaterials

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https://doi.org/10.1007/978-1-4842-0662-1often encounter an enormous variety of choices when selecting scaffolds for tissue engineering. Typically, glass, ceramics, or polymeric biomaterials are used for making scaffolds, which provide the structural support for cell attachment and subsequent tissue development.