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Title: |
Resin Composites |
| Sub-title: |
Properties, Production & Applications |
Search Result:
| Edited by: |
Deborah B Song |
| ISBN10-13: |
1612091296 : 9781612091297 |
| Format: |
Hardback |
| Size: |
180x260mm |
| Pages: |
433 |
| Weight: |
.980 Kg. |
| Published: |
Nova Science Publishers, Inc (US) - January 2012 |
| List Price: |
221.99 Pounds Sterling |
| Availability: |
In Stock
Qty Available: 1 |
| Subjects: |
Materials science |
| Composite resins are types of synthetic resins which are used in dentistry as restorative material or adhesives. Synthetic resins evolved as restorative materials since they were insoluble, aesthetic, and insensitive to dehydration and were inexpensive. This book presents topical research in the study of resin composites, including water immersion and impact damage effects on resin composites; fabrication and evaluation of bioactive dental composites; nanostructured organosilicate composites; the electromagnetic properties of a composite made of metal particles dispersed in resin and posterior composite resin restoration. |
| Table of Contents: |
| Preface; Review on the Water Immersion & Impact Damage Effects on the Residual Compressive Strength of Composites; Fabrication & Evaluation of Bioactive Dental Composites Based on Amorphous Calcium Phosphate; Nanostructured Organosilicate Composites: Production, Properties, Application; Electromagnetic Properties of a Composite Made of Metal Particles Dispersed in Resin; Fabrication of Epoxy Resin Composites with Metal Nanoparticles; Effect of Montmorillonite Clay on Thermal & Mechanical Properties of Epoxy & Carbon/Epoxy Composite; Thermooxidative & Thermohydrolytic Aging of Composite Organic Matrices; Posterior Composite Resin Restoration: New Technology, New Trends; Advances on Rigid Conducting Composites for Electroanalytical Applications; Wood Adhesive from Liquified Biomass: A Review; Resin Composite Laminates: Conservative & Aesthetic Restoration; Natural Resins: Chemical Constituents & Medicinal Uses; Toughening of Bismaleimide-Matric RTMable High-Performance Composites by Using Innovative Ex-Situ Technology for Aerospace; Index. |
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