Tribology of Polymer Composites Characterization, Properties, and Applications Elsevier Series on Tribology and Surface Engineering Series
Coordonnateurs : Mavinkere Rangappa Sanjay, Siengchin Suchart, Parameswaranpillai Jyotishkumar, Friedrich Klaus
Tribology of Polymer Composites: Characterization, Properties, and Applications provides an exhaustive overview of the latest research, trends, applications and future directions of the tribology of polymer composites. Covering novel methods for the synthesis of polymer composites and their properties, the book starts by reviewing the fabrication techniques, wear and frictional properties of polymer composite materials. From there, it features chapters looking at the tribological behavior and properties of specific polymer composite materials such as synthetic fiber-reinforced, cellulose fiber-reinforced, wood fiber, synthetic fiber, mineral fiber-reinforced, and thermosetting composites.
Final chapters cover the tribology of polymer nanocomposites and particulate polymer composites and their metal coatings. Applied examples spanning a wide range of industries are emphasized in each chapter.
- Outline to tribology of polymer composites
- Recent advances in tribology of hybrid polymer composites
- Development and tribological properties of polymer composites
- Tribological behavior of fiber-reinforced polymer composites
- Tribological characterization of cellulose fiber-reinforced polymer composites
- Effect of adding sisal fiber on the sliding wear behavior of the coconut sheath fiber-reinforced composite
- Influence of coconut and graphite fillers on the wear and friction behavior of epoxy composites
- Tribological behavior of nanoclay-filled basalt fiber-reinforced polymer composites
- Slurry jet erosion wear of particulate polymer composites and metal coating
- Tribology of thermosetting composites
- Tribological studies of surface-modified sansevieria cylindrica fiber-reinforced polyester composites
- Friction and wear properties of carbon nanotube-reinforced polymer composites
- Sustainable tribology: Processing and characterization of multiscale thermoplastic composites within hydropower applications
- Tribological characterization of different mesh-sized natural barite-based copper-free brake friction composites
- Tribological studies and modal analysis on biocomposite/PVC core sandwich panels
- Synergism of fillers on adhesive and abrasive wear of thermoplastic copolyester elastomer composites
- Tribological applications of polymer composites
Prof. Dr.-Ing. habil. Suchart Siengchin is President of King Mongkut's University of Technology North Bangkok (KMUTNB), Thailand. He received his Dipl.-Ing. in Mechanical Engineering from University of Applied Sciences Giessen/Friedberg, Hessen, Germany, M.Sc. in Polymer Technology from University of Applied Sciences Aalen, Baden-Wuerttemberg, Germany, M.Sc. in Material Science at the Erlangen-Nürnberg University, Bayern, Germany, Doctor of Philosophy in Engineering (Dr.-Ing.) from Institute for Composite Materials, University of Kaiserslautern, Rheinland-Pfalz, Germany and Postdoctoral Research from Kaiserslautern University and School of Materials Engineering, Purdue University, USA. He worked as a Lecturer for Production and Material Engineering Department at The Sirindhorn International Thai-German Graduate School of Engineering (TGGS), KMUTNB. He has been full Professor at KMUTNB and became the President of KMUTNB. He won the Outstanding Researcher Award in 2010, 2012 and 2013 at KMUTNB. He is an author of more than 150 peer reviewed journal articles.
Jyotishkumar Parameswaranpillai received his PhD in Polymer Science and Technology (Chemistry) from Mahatma Gandhi University, Kerala, India. He has published more than 100 papers, in high q
- Demonstrates the potential of polymer composites and their applications
- Covers novel methods for the synthesis of polymer composites and their properties
- Reviews the fabrication techniques, wear and frictional properties of polymer composite materials
Date de parution : 09-2020
Ouvrage de 400 p.
15x22.8 cm
Thème de Tribology of Polymer Composites :
Mots-clés :
Abrasion; Adhesion; Aluminum filled-epoxy; Applied load; Basalt; Bearings; Biocomposite sandwich; Brake friction composites; Brakes; Carbon nanotubes (CNTs); Carbon-based reinforcements; Chemical treatment; Coconut filler; Coconut sheath; Coefficient of friction; Composites; Compression molding; Compression molding technique; Cu2O filler; Curing temperature; Dry sliding wear; Fade and recovery; Fiber composites; Fiber length; Fiber orientation; Fibers; Fibrous fillers; Filler; Friction; Friction material; Friction materials; Graphite filler; Hybrid composite; Hybridization; Hydropower; Hygrothermal aging; Injection molding; Layered silicates; Lubrication; Matrix; Microscopy; Model analysis; Multiscale composites; Nanoclay; Nanosized particles; Natural barites; Natural fibers; Phenolic resin; PLA composites; Polyester composites; Polymer; Polymer composite materials; Polymer composites; Polymer matrix composite; Polymeric composites; Polymers; PPS; PTFE; Rapid tooling; Reciprocating sliding; Reinforcement; Sansevieria cylindrica fiber; Scanning electron microscope; Sisal; Sliding velocity; Slurry erosion wear; Special fillers; Specific wear rate; Surface treatment; Thermal spraying; Thermoplastic copolyester elastomer composites; Thermoplastics; Thermosetting composites; Tribological behavior; Tribological properties; Tribology; UHMWPE; Unidirectional sliding; Water lubrication; Wear; Wear and friction behaviors; Wear behavior; Wear properties; Wear resistance; Wear studies; Wear study; Wet granulation; Zn-alloy coating
