Warenkorb
€ 0,00 0 Buch dabei,
portofrei
Laser Surface Treatment of Bio-Implant Materials als Buch
PORTO-
FREI

Laser Surface Treatment of Bio-Implant Materials

Sprache: Englisch.
Buch (gebunden)
Ihr 13%-Rabatt auf alle Spielwaren, Hörbücher, Filme, Musik u.v.m
 
13% Rabatt sichern mit Gutscheincode: GIBMIR13
 
The biomaterials technology industry is already well established in the western world and is growing rapidly within Asian Pacific nations. It is often described as the 'next electronics industry', whilst the laser is described as a 'solution looking … weiterlesen
Buch

149,99*

inkl. MwSt.
Portofrei
Lieferbar innerhalb von zwei Wochen
Laser Surface Treatment of Bio-Implant Materials als Buch

Produktdetails

Titel: Laser Surface Treatment of Bio-Implant Materials
Autor/en: Liang Hao, Jonathan Lawrence

ISBN: 0470016876
EAN: 9780470016879
Sprache: Englisch.
JOHN WILEY & SONS INC

Dezember 2005 - gebunden - 211 Seiten

Beschreibung

The biomaterials technology industry is already well established in the western world and is growing rapidly within Asian Pacific nations. It is often described as the 'next electronics industry', whilst the laser is described as a 'solution looking for a problem'. This book describes the use of the laser to solve a troublesome and costly problem in a rapidly growing global industry. The authors have spent many years conducting research using laser materials processing and wettability characteristics and have perfected a technique to improve the bio-compatibility of various bone-implant materials using laser irradiation. They have made pioneering discoveries on the subject and established some generic theories and principals that will have a wide range of applications in the biomaterials field. * Introduces inter-disciplinary research work covering laser materials processing and surface modification of biomaterials for enhanced compatibility. * Includes highly scientific and novel research material. * Serves both as a practitioner guide and a reference book. * Covers an exciting and rapidly developing area of technology that is of keen interest to engineers and clinicians alike. Laser Surface Treatment of Bio-Implant Materials is rare in providing a reference source that describes specifically a mechanical engineering solution to a biotechnology problem. It serves as both a practitioner guide and a medium to high-level reference text book, and as such is a reference source for the engineer practising or looking to move into the biomaterials field, undergraduate and post graduate students and those conducting bio-related research in either academia or industry. It will prove useful to mechanical engineers, biotechnologists, biomechanical engineers, metallurgists, clinicians and even surgeons.

Inhaltsverzeichnis

Acknowledgements.
Introduction.
1. Bioactivity and Biointegration of Orthopaedic and Dental Implants.
1.1. Introduction.
1.3. Biointegration of Orthopaedic and Dental Implants.
1.4. Controlling the Bone-Implant Interface.
2. Surface Modification of Biomaterials.
2.1. Introduction.
2.3. Metallic Implants.
2.4. Surface Modification of Biomaterials.
2.5. Laser Surface Modification of Biomaterials.
3. Wettability in Biomaterials Science and Modification Techniques.
3.1. Introduction.
3.2. Wettability, Adhesion and Bonding Theoretical Background.
3.3. Wettability in Biomaterial Science.
3.4. Current Methods of Wettability Modification.
3.5. Laser Wettability Characteristics Modification.
4. CO_2 Laser Modification of the Wettability Characteristics of Magnesia Partially Stabilised Zirconia.
4.1. Introduction.
4.2. Experimental Procedures.
4.3. The Effects of CO_2 Laser Radiation on Wettability Characteristics.
4.4. Surface Energy and its Component Parts.
4.5. Identification of the Predominant Mechanisms Active in Determining Wettability Characteristics.
4.6. The Role Played by Microstructures in Terms of Crystal Size and Phase in Effecting Surface Energy Changes.
4.7. Investigation of Wettability and Work Adhesion Using Physiological Liquids.
4.8. Summary.
5. In vitro Biocompatibility Evaluation of CO_2 Laser Treated Magnesia Partially Stabilised Zirconia.
5.1. Introduction.
5.2. Sample Preparation.
5.3. Bone Like Apatite Formation.
5.4. Protein Adsorption.
5.5. Osteoblast Cell Response.
5.6. Predictions for Implantation in an in vivo Clinical Situation.
5.7. Summary.
6. The Effects of CO_2 Laser Radiation on the Wettability Characteristics of a Titanium Alloy.
6.1. Introduction.
6.2. Experimental Procedures.
6.3. The Effects of CO_2 Laser Radiation on Wettability Characteristics.
6.4. Surface Energy and its Component Analysis.
6.5. Identification of the Predominant Mechanisms Active in Determining Wettability Characteristics.
6.6. Investigation of Wettability and Work Adhesion Using Physiological Liquids.
6.7. Summary.
7. In vitro Biocompatibility Evaluation of CO_2 Laser Treated Titanium Alloy.
7.1. Introduction.
7.2. Sample Preparation.
7.3. Bone Like Apatite Formation on Titanium Alloys.
7.4. Protein Adsorption.
7.5. Osteoblast Cell Adhesion.
7.6. Predictions for Implantation in an in vivo Clinical Situation.
7.7. Summary.
8. Enquiry into the Possible Generic Effects of the CO_2 Laser Treatment on Bone Implant Biomaterials.
8.1. Introduction.
8.2. Ascertaining the Generic Effects of CO_2 Laser Treatment on Bioinert Ceramics.
8.3. Ascertaining the Generic Effects of CO_2 Laser Treatment on Metal Implants.
8.4. Summary.
Conclusions.
References.
Index.

Portrait

Dr Jonathan Lawrence is an Assistant Professor in the Manufacturing Engineering Division of the School of Mechanical & Production Engineering at Nanyang Technological University, Singapore. His current research interests include the further inveestigation of the effects of laser radiation on the wettability characteristics of selected ceramics, metals, natural and man-made bio-materials and plastics. Dr Liang Hao recently completed a PhD at Nanyang Technological University , Singapore on CO2 laser treatments, and is now a research associate based at the Wolfson School of Mechanical and Manufacturing Engineering at Loughborough University, UK.
Servicehotline
089 - 70 80 99 47

Mo. - Fr. 8.00 - 20.00 Uhr
Sa. 10.00 - 20.00 Uhr
Filialhotline
089 - 30 75 75 75

Mo. - Sa. 9.00 - 20.00 Uhr
Bleiben Sie in Kontakt:
Sicher & bequem bezahlen:
akzeptierte Zahlungsarten: Überweisung, offene Rechnung,
Visa, Master Card, American Express, Paypal
Zustellung durch:
* Alle Preise verstehen sich inkl. der gesetzlichen MwSt. Informationen über den Versand und anfallende Versandkosten finden Sie hier.
** Deutschsprachige eBooks und Bücher dürfen aufgrund der in Deutschland geltenden Buchpreisbindung und/oder Vorgaben von Verlagen nicht rabattiert werden. Soweit von uns deutschsprachige eBooks und Bücher günstiger angezeigt werden, wurde bei diesen kürzlich von den Verlagen der Preis gesenkt oder die Buchpreisbindung wurde für diese Titel inzwischen aufgehoben. Angaben zu Preisnachlässen beziehen sich auf den dargestellten Vergleichspreis.