LEADER 08728nam 2200613 a 450 001 9910959423603321 005 20251117090907.0 010 $a1-61324-772-9 035 $a(CKB)2550000000045014 035 $a(EBL)3019605 035 $a(SSID)ssj0000526260 035 $a(PQKBManifestationID)12189403 035 $a(PQKBTitleCode)TC0000526260 035 $a(PQKBWorkID)10520607 035 $a(PQKB)10614004 035 $a(MiAaPQ)EBC3019605 035 $a(Au-PeEL)EBL3019605 035 $a(CaPaEBR)ebr10671170 035 $a(OCoLC)743803012 035 $a(BIP)30116459 035 $a(EXLCZ)992550000000045014 100 $a20130325d2012 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aTribology of composite materials /$fJ. Paulo Davim, editor 205 $a1st ed. 210 $aNew York $cNova Science Publishers, Inc.$d2012 215 $a1 online resource (223 p.) 225 1 $aMaterials and manufacturing technology 300 $aDescription based upon print version of record. 311 08$a1-61668-319-8 320 $aIncludes bibliographical references and index. 327 $aIntro -- TRIBOLOGY OF COMPOSITE MATERIALS -- TRIBOLOGY OF COMPOSITE MATERIALS -- CONTENTS -- PREFACE -- TRIBOLOGY OF FUNCTIONALISED CARBON NANOFILLERS BASED POLYMER COMPOSITES -- ABSTRACT -- 1. INTRODUCTION TO TRIBOLOGY AND TRIBO-MATERIALS -- 1.1. Tribo-efficient Materials -- 1.1.1. Polymeric Tribo-composites -- 2. TRADITIONAL CARBON FILLED POLYMER COMPOSITES IN TRIBOLOGY: SIGNIFICANCE AND APPLICATIONS -- 2.1. Carbon Fiber Polymer Composites -- 2.2. Carbon Fabric Reinforced Polymer Composites -- 2.2.1. Influence of Type of Carbon Fabric Weave -- Adhesive Wear Mode -- Fretting Wear Mode -- Abrasive Wear Mode -- 2.2.2. Influence of Carbon Fabric Content -- Adhesive Wear Mode -- Fretting Wear Mode -- Abrasive Wear Mode -- 2.2.3. Influence of Carbon Fabric Treatment -- 3. CARBON NANOFILLERS BASED POLYMER NANOCOMPOSITES -- 3.1. Novel Carbonaceous Nanofillers for Polymer Composites -- 3.1.1. Carbon Nanotubes -- Synthesis of Nanotubes -- Electric Arc Discharge Method -- Laser Ablation -- Chemical Vapour Deposition -- LCVD -- 3.1.2. Carbon Nanofibers -- 3.1.2.1. Fullerenes -- 3.1.3. Carbon Nanorods/Nanowhisker -- 3.1.4. Amorphous Carbon -- 3.2. Functionalisation of Carbon Nanofillers -- 3.3. Processing Techniques -- 3.3.1. Melt Mixing/Compounding -- Sonication -- Ball Milling -- 3.3.2. Extrusion -- 3.3.3. In Situ Polymerisation -- 3.3.4. Thin Film Deposition -- 4. TRIBOLOGY OF CARBON NANOFIBRE BASED POLYMER NANOCOMPOSITES -- 4.1. Tribology of Functionalized Carbon Nanofiber Polymer Composites -- 4.2. Tribological Characterization of Functionalised Carbon Nanotubes Polymer Composites -- 4.2.1. Influence of Functionalization of CNT on Friction and Wear Behaviour -- 4.2.2. Threshold Concentration of CNT -- 4.2.3. Influence of Mixing and Sonication on CNT Dispersion -- CONCLUSION -- ACKNOWLEDGMENT -- REFERENCES. 327 $aTRIBOLOGY OF INJECTION MOLDED THERMOPLASTIC NANOCOMPOSITES -- ABSTRACT -- 1. INTRODUCTION -- 2. RECENT RESEARCH DEVELOPMENTS -- 3. SPECIMEN MOLDING -- Dynamic Mechanical Analysis -- Differential Scanning Calorimetry -- 4. MECHANICAL TESTING -- Tensile Tests -- Indentation Tests -- 5. TRIBOLOGICAL PROPERTIES -- REFERENCES -- TRIBOLOGY OF COMPOSITE MATERIALS WITH INORGANIC LUBRICANTS -- ABSTRACT -- 1. INTRODUCTION -- 2. PREPARATION OF COMPOSITE MATERIALS FOR TRIBOLOGICAL APPLICATION -- 2.1. Mechanical Mixing -- 2.2. CHEMICAL SYNTHESIS -- 2.2.1. Intercalation -- 2.2.2. Chemical Modification -- 2.3. Technology of Coating and Film -- 3. TRIBOLOGY OF COMPOSITE MATERIALS -- 3.1. Tribology of Composites with MS2 as Fillers -- 3.2. Tribology of Composites with Carbon Nanotube -- 3.2.1. Introduction of Carbon Nanotube -- 3.2.2. Measurement of Surface Functionalities -- 3.2.3. Microtribology -- 3.2.4. Nanocomposites -- 3.2.5. Experimental Results -- 3.3. Tribology of Composites with other Fillers -- 3.4. Tribology of Intercalation Composites -- 3.5. Tribology of Surface-Modified Composites -- 3.6. Tribology of Lubrication Composite Coating and Film -- CONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- MECHANICAL AND TRIBOLOGICAL BEHAVIORS OF NANOMETER AL2O3 AND SIO2 REINFORCED PEEK COMPOSITES -- ABSTRACT -- 1. INTRODUCTION -- 2. EXPERIMENTAL METHOD -- 2.1. Material Specimen Preparation -- 2.2. Methods for Mechanical Properties Testing -- 2.3. Methods for Sliding Friction Testing -- 2.4. Methods for Fretting Testing -- 3. MECHANICAL PROPERTIES OF PEEK COMPOSITE -- 3.1. Effect of Filler Nanoparticle Size on Mechanical Properties and Fracture Mechanism -- 3.2. Effect of Filler Content on Mechanical Properties and Fracture Mechanism -- 3.3. Effect of Coupling Agents for Nanoparticle Treatment on Mechanical Properties. 327 $a3.4. Effect of Dispersing Methods of Nanoparticles in PEEK on Mechanical Properties -- 4. SLIDING FRICTION PROPERTIES OF PEEK COMPOSITE -- 4.1. The Friction and Wear Properties of Filled PEEK in Dry Sliding Conditions -- 4.2. SEM Observation of the Wear Traces and Transfer Films -- 4.3. EDS Analysis -- 5. FRETTING PROPERTIES OF PEEK COMPOSITES -- 5.1. The Influence of Al2O3 Diameter on Fretting Wear Resistance of PEEK Composites -- 5.2. The Influence of Different Content of the Fillers on Fretting Wear Resistance of PEEK Composites -- 5.3. SEM and EDS Analysis on the Worn Surfaces -- CONCLUSION -- REFERENCES -- EFFECTS OF MATRIX CRYSTALLINE STRUCTURE AND MOLECULAR WEIGHTON THE TRIBOLOGICAL BEHAVIOR OF PEEK-BASED MATERIALS -- ABSTRACT -- 1. INTRODUCTION -- 2. EXPERIMENTAL -- 2.1. Sample Preparation -- 2.2. Friction Tests -- 3. RESULTS AND DISCUSSIONS -- 3.1. Effects of Crystalline Structure on the Tribological Behavior of Graphite Particles Filled PEEK -- 3.2. Correlation of the Tribological Behaviors with the Mechanical Properties of PEEK Materials with Different Matrix Molecular Weights -- 3.2.1. Mechanical Properties -- 3.2.2. Tribological Behaviors -- CONCLUSION -- REFERENCES -- FRICTION AND WEAR OF AL2O3-NI COMPOSITE -- ABSTRACT -- 1. INTRODUCTION -- 2. MATERIALS AND EXPERIMENTAL DETAILS -- 2.1. Materials -- 2.1.1. Preparation of Al2O3-Ni Composite Powder -- 2.1.2. Preparation and Microstructure of Al2O3-Ni Composite -- 2.1.3. Mechanical Property of Al2O3-Ni Composite -- 2.2. Friction and Wear Test -- 3. RESULTS AND DISCUSSION -- 3.1. Friction Coefficient -- 3.2. Wear Rate -- 3.3. Wear Mechanisms -- 3.3.1. Monolithic Al2O3 -- 3.3.2. Al2O3-Ni Composite -- CONCLUSION -- REFERENCES -- MODELING AND ANALYSIS ON WEAR BEHAVIOUR OF METAL MATRIX COMPOSITES -- ABSTRACT -- 1. INTRODUCTION -- 2. EXPERIMENTAL INVESTIGATION. 327 $a3. MODELING OF TRIBOLOGICAL PARAMETERS USING RESPONSE SURFACE APPROACH -- 4. RESULTS AND DISCUSSION -- CONCLUSION -- REFERENCES -- TRIBOLOGY OF GLASS-CERAMIC BONDED COMPOSITE MATERIALS -- ABSTRACT -- 1. INTRODUCTION -- 2. WEAR OF ABRASIVE COMPOSITES -- 2.1 Attritious Wear -- 2.2 Fracture Wear -- 2.3. Wheel Wear Mechanisms -- 2.4 Wheel Wear and Grinding Forces -- 2.5 Assessment of Grinding Forces and Wear -- 2.6 Effect of Workpiece Material on Wheel Wear -- 2.7 Effect of Abrasive and Bond Composition on Wheel Performance -- 3. VITRIFIED BONDING MATERIALS -- 3.1 Effect of Particle Size of Constituent Materials -- 3.2 Effect of Mullite and Glass Content -- 3.3 Effect of Quartz Content -- 3.4 Ceramic Bonding Materials and Bond Strength -- 3.5 Effect of Interfacial Cohesion on Bond Strength and Wheel Wear -- 4. REACTIONS IN CERAMIC BONDS -- 4.1 Densification and Phase Analysis -- 4.1.1 Theoretical Phase Analysis - Use of Equilibrium Diagrams -- 4.1.2. Formation of Mullite in Kaolinite Clays -- 4.1.3. Effect of Heat on Feldspar and Quartz -- 4.1.4. Effect of Heat on Clay-based Materials -- 4.1.5. Effects of Cooling -- CONCLUSION -- ACKNOWLEDGMENTS -- AUTHOR'S BIOGRAPHY -- REFERENCES -- INDEX. 330 $aTribology is defined as the 'science and technology of interacting surfaces in relative motion'. It includes the research and application of principles of friction, wear and lubrication. This book reviews research on the tribology of composite materials. 410 0$aMaterials and manufacturing technology series. 606 $aComposite materials$xMechanical properties 606 $aTribology 615 0$aComposite materials$xMechanical properties. 615 0$aTribology. 676 $a620.1/1892 701 $aDavim$b J. Paulo$0739914 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910959423603321 996 $aTribology of composite materials$94468169 997 $aUNINA