Titlebook: Bioceramics; Materials · Properti A. Ravaglioli,A. Krajewski Book 1992 Springer Science+Business Media Dordrecht 1992 Al2O3.Metall.Surgery.

他剪短

书目名称Bioceramics影响因子(影响力)




书目名称Bioceramics影响因子(影响力)学科排名




书目名称Bioceramics网络公开度




书目名称Bioceramics网络公开度学科排名




书目名称Bioceramics被引频次




书目名称Bioceramics被引频次学科排名




书目名称Bioceramics年度引用




书目名称Bioceramics年度引用学科排名




书目名称Bioceramics读者反馈




书目名称Bioceramics读者反馈学科排名

defeatist

Physical properties and physiology of bone,des, collagen, polyphosphates) and other substances. Although the properties of bone vary from point to point and the proportion of the diverse substances varies according to the different parts of the skeleton, bone tissue contains about two-thirds inorganic and one-third organic substances on aver

Herpetologist

Infirm

farewell

Current mechanical-testing devices as simulators of properties under dynamic movement,ompliance with the requirements of the relevant regulations, machines are required that are capable of simulating the behaviour of a specified prostesis and providing indicative results to predict its behaviour when implanted.

GAVEL

Fixing of the prosthesis to the skeletal part,ariety of circumstances which can affect the relation between the stability of an implant and its liability to loosening. The interdependence between the biological and biomechanical factors that can lead to loosening is a subject which has been studied and summarized by Lee and Ling 1984 (Fig. 12.1

乱砍

Approach to biocompatibility tests,ion or disorganized growth in the tissues in which they are immersed. Such unwanted reactions may include, to take some examples, localized necroses resulting from the toxicity of the substances that compose the implanted material, immunologic reactions, hypersensitivity (notably in the case of meta

fleeting

amplitude

Book 1992een the clinical evaluation of joint prostheses based upon stabili­ zation via tissue ingrowth. It appears that the next generation of joint prostheses will be based upon direct chemically bonding to bone using hydroxyapatite, surface-active glass or surface-active glass ceramics coatings. Resorbabl

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dics has been the clinical evaluation of joint prostheses based upon stabili­ zation via tissue ingrowth. It appears that the next generation of joint prostheses will be based upon direct chemically bonding to bone using hydroxyapatite, surface-active glass or surface-active glass ceramics coatings. Resorbabl978-94-010-5032-6978-94-011-2336-5