Toughened Composites
Micro and Macro Systems
Herausgeber: Bandyopadhyay, Sri; Gujjala, Raghavendra
Toughened Composites
Micro and Macro Systems
Herausgeber: Bandyopadhyay, Sri; Gujjala, Raghavendra
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This book covers micro and macro aspects of toughened composites covering polymer matrix, metal matrix, ceramic matrix and nanomatrix including composites fabrication, construction, and light weight yet high crack - resistance performance, macroscopic testing, models of stress transfer and commercial features.
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This book covers micro and macro aspects of toughened composites covering polymer matrix, metal matrix, ceramic matrix and nanomatrix including composites fabrication, construction, and light weight yet high crack - resistance performance, macroscopic testing, models of stress transfer and commercial features.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 296
- Erscheinungstermin: 9. Dezember 2022
- Englisch
- Abmessung: 254mm x 178mm x 19mm
- Gewicht: 767g
- ISBN-13: 9780367353070
- ISBN-10: 0367353075
- Artikelnr.: 65615411
- Verlag: CRC Press
- Seitenzahl: 296
- Erscheinungstermin: 9. Dezember 2022
- Englisch
- Abmessung: 254mm x 178mm x 19mm
- Gewicht: 767g
- ISBN-13: 9780367353070
- ISBN-10: 0367353075
- Artikelnr.: 65615411
Dr Sri Bandyopadhyay, a former academic at UNSW Sydney Australia - School of Mat Sci Eng, and an earlier senior research scientist at Australian Defence DSTO MRL Melbourne has research background in fracture micro - micro features in a) polymer matrix, b) meal matrix and c) ceramic matrix composites. At DSTO MRL Australia, Sri Bandyopadhyay's in-situ SEM study of micro-macro fracture earned Sri the 'DSTO MRL Scientist of the year' award. Whilst at UNSW SMSE, Sri Bandyopadhyay taught fracture mechanics, polymer engineering and composites technology to students in his School as well as in other schools at UNSW in Faculty of Engineering. By the way, Sri Bandyopadhyay had done his Ph D at Monash University Australia on Environmental Stress cracking of Polyethylene. Sri's organised Proceedings of ACUN-5 International Composite Conference - Developments in Composites: Advanced, Infrastructural, Natural and Nano-composites, 11-14 July, 2006, UNSW, Sydney, Australia are available on internet using website http://unsworks.unsw.edu.au/fapi/datastream/unsworks:417/SOURCE1?view=true Dr Raghavendra Gujjala, an Assistant professor in mechanical department at National Institute of Technology Warangal, Telangana, INDIA. G Raghavendra completed his Ph.D from NIT Rourkela. His research background in Composite materials, FGMs, Nano Materials, Bio glasses. Raghavendra published more than 130 international and national journals and conferences. He published more than 12 book chapters in different books. G Raghavendra taught Composites, Tribology, material characterization of materials to students. Website: https://www.nitw.ac.in/faculty/id/16533
1: Introduction: In-Situ SEM Identification of High-Resolution Crack Tip
Micro-Deformation in Some Polymer Matrix Materials. 2: Polystyrene Based
Composites and Its Toughening Mechanisms. 3: Metal Matrix Composites: An
Overview. 4: Improvement of Characteristics of Composites Using Natural
Fibre as Reinforcement by Different Pre-Treatments. 5: Particulate
Reinforced Composites. 6: Graphene Reinforced Polymer Composites. 7:
Matrices for Composite Materials: Polymers, Metals, Ceramics, Cements. 8:
Metallurgical Failure Analysis of An Excavator Boom Body Comprised of
Several Members Manufactured Out of Welded Composite Structures. 9:
Tribological Behaviour of Polymer Matrix and Metal Matrix Composites. 10:
Carbon Nanotube Hybrid Fabric - Manufacturing and Applications Including
Structural and Wearables. 11: Toughening Mechanisms in Mullite-Based
Composites. 12: Generalized Model of Trends in Mechanical Properties of
Toughened Sphere-Reinforced Polymer Matrix Composites. 13: Toughened
Composites Case Studies for Structural and Engineering Applications. 14:
Carbon Nanostructures Based Composite for Energy Related Applications. 15:
Self-Healing Composites -Capsule and Vascular Based Extrinsic Self-Healing
Systems. 16: Role of Nano Reinforcement onto Intra and Interlaminar
Fracture of Hybrid Laminated Composites. 17: Electrochemical and
Microscopic Studies on Controlling of Cracking Behaviour of SiCp, Al2O3
Reinforced Aluminium Metal Matrix Composites. 18: Toughening of Polymers.
19: Free Vibration of Laminated Composite Stiffened Shallow Shells. 20:
Toughening Effect of Aluminium Particles in Conductive Polyester
Composites.
Micro-Deformation in Some Polymer Matrix Materials. 2: Polystyrene Based
Composites and Its Toughening Mechanisms. 3: Metal Matrix Composites: An
Overview. 4: Improvement of Characteristics of Composites Using Natural
Fibre as Reinforcement by Different Pre-Treatments. 5: Particulate
Reinforced Composites. 6: Graphene Reinforced Polymer Composites. 7:
Matrices for Composite Materials: Polymers, Metals, Ceramics, Cements. 8:
Metallurgical Failure Analysis of An Excavator Boom Body Comprised of
Several Members Manufactured Out of Welded Composite Structures. 9:
Tribological Behaviour of Polymer Matrix and Metal Matrix Composites. 10:
Carbon Nanotube Hybrid Fabric - Manufacturing and Applications Including
Structural and Wearables. 11: Toughening Mechanisms in Mullite-Based
Composites. 12: Generalized Model of Trends in Mechanical Properties of
Toughened Sphere-Reinforced Polymer Matrix Composites. 13: Toughened
Composites Case Studies for Structural and Engineering Applications. 14:
Carbon Nanostructures Based Composite for Energy Related Applications. 15:
Self-Healing Composites -Capsule and Vascular Based Extrinsic Self-Healing
Systems. 16: Role of Nano Reinforcement onto Intra and Interlaminar
Fracture of Hybrid Laminated Composites. 17: Electrochemical and
Microscopic Studies on Controlling of Cracking Behaviour of SiCp, Al2O3
Reinforced Aluminium Metal Matrix Composites. 18: Toughening of Polymers.
19: Free Vibration of Laminated Composite Stiffened Shallow Shells. 20:
Toughening Effect of Aluminium Particles in Conductive Polyester
Composites.
1: Introduction: In-Situ SEM Identification of High-Resolution Crack Tip
Micro-Deformation in Some Polymer Matrix Materials. 2: Polystyrene Based
Composites and Its Toughening Mechanisms. 3: Metal Matrix Composites: An
Overview. 4: Improvement of Characteristics of Composites Using Natural
Fibre as Reinforcement by Different Pre-Treatments. 5: Particulate
Reinforced Composites. 6: Graphene Reinforced Polymer Composites. 7:
Matrices for Composite Materials: Polymers, Metals, Ceramics, Cements. 8:
Metallurgical Failure Analysis of An Excavator Boom Body Comprised of
Several Members Manufactured Out of Welded Composite Structures. 9:
Tribological Behaviour of Polymer Matrix and Metal Matrix Composites. 10:
Carbon Nanotube Hybrid Fabric - Manufacturing and Applications Including
Structural and Wearables. 11: Toughening Mechanisms in Mullite-Based
Composites. 12: Generalized Model of Trends in Mechanical Properties of
Toughened Sphere-Reinforced Polymer Matrix Composites. 13: Toughened
Composites Case Studies for Structural and Engineering Applications. 14:
Carbon Nanostructures Based Composite for Energy Related Applications. 15:
Self-Healing Composites -Capsule and Vascular Based Extrinsic Self-Healing
Systems. 16: Role of Nano Reinforcement onto Intra and Interlaminar
Fracture of Hybrid Laminated Composites. 17: Electrochemical and
Microscopic Studies on Controlling of Cracking Behaviour of SiCp, Al2O3
Reinforced Aluminium Metal Matrix Composites. 18: Toughening of Polymers.
19: Free Vibration of Laminated Composite Stiffened Shallow Shells. 20:
Toughening Effect of Aluminium Particles in Conductive Polyester
Composites.
Micro-Deformation in Some Polymer Matrix Materials. 2: Polystyrene Based
Composites and Its Toughening Mechanisms. 3: Metal Matrix Composites: An
Overview. 4: Improvement of Characteristics of Composites Using Natural
Fibre as Reinforcement by Different Pre-Treatments. 5: Particulate
Reinforced Composites. 6: Graphene Reinforced Polymer Composites. 7:
Matrices for Composite Materials: Polymers, Metals, Ceramics, Cements. 8:
Metallurgical Failure Analysis of An Excavator Boom Body Comprised of
Several Members Manufactured Out of Welded Composite Structures. 9:
Tribological Behaviour of Polymer Matrix and Metal Matrix Composites. 10:
Carbon Nanotube Hybrid Fabric - Manufacturing and Applications Including
Structural and Wearables. 11: Toughening Mechanisms in Mullite-Based
Composites. 12: Generalized Model of Trends in Mechanical Properties of
Toughened Sphere-Reinforced Polymer Matrix Composites. 13: Toughened
Composites Case Studies for Structural and Engineering Applications. 14:
Carbon Nanostructures Based Composite for Energy Related Applications. 15:
Self-Healing Composites -Capsule and Vascular Based Extrinsic Self-Healing
Systems. 16: Role of Nano Reinforcement onto Intra and Interlaminar
Fracture of Hybrid Laminated Composites. 17: Electrochemical and
Microscopic Studies on Controlling of Cracking Behaviour of SiCp, Al2O3
Reinforced Aluminium Metal Matrix Composites. 18: Toughening of Polymers.
19: Free Vibration of Laminated Composite Stiffened Shallow Shells. 20:
Toughening Effect of Aluminium Particles in Conductive Polyester
Composites.