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pmc-ppt.pptx
- 2. Composite Materials Classification of composites Polymer & Polymer matrix composite Classification of Polymers Fibers in PMCs Applications Of PMCs Limitations of PMC 2 Contents:
- 3. Composite Materials Made from two or more constituent materials Materials having significantly different physical or chemical properties. Produced material have different characteristics from the individual components. 3
- 4. Classification of composites Composite materials Matrices Polymer Matrix Composites (PMC) Metal Matrix Composites (MMC) Ceramic Matrix Composites (CMC) 4
- 5. Polymer & Polymer matrix composite • Polymer : A large molecule (macromolecule) composed of repeating structural units (monomer) typically connected by covalent chemical bonds. 5
- 6. Polymer & Polymer matrix composite • Polymer Matrix Composite (PMC): Consisting of a polymer (resin) matrix and fiber. Very popular due to their low cost and simple fabrication methods. 6
- 8. 8 Thermosetting and Thermoplastics Polymers Thermosetting Polymers Extensive crosslinking formed by covalent bonds. High Thermal stability. High dimensional stability. Low weight. High rigidity. Can not be recycled due to its heavy covalent bonds. Thermoplastics No chemical linking between individual molecules. Molecules are bonded by weak secondary bonds like Van der walls bonds and hydrogen. Parts can be made and joined by heating. Can be remolded, and recycled. B e tter toughness and impact resistance than thermosets.
- 9. Fibers in PMCs: Various forms: Discontinuous (chopped) Continuous or woven as a fabric Fibers used • Principal fiber materials in FRPs are glass, carbon, and Kevlar 49. • Less common fibers include boron, SiC, Al2O3 and steel. • Glass (in particular E-glass) is the most common fiber material in today's FRPs; its use to reinforce plastics dates from around 1920. 9
- 10. Resin Transfer Molding 10 In the RTM process, dry reinforcement is pre-shaped and oriented into skeleton of the actual part known as the preform which is inserted into a heated matched die mold . The heated mold is closed and the liquid resin is injected. The part is cured in mold. Finally mold is opened and part is removed from mold.
- 11. Advantages Large complex shapes and curvatures can be made easily. High level of automation. Simpler than in manual operations. Takes less time to produce. Low volatile emission Cost effective. Low skill labor required 11 Resin Transfer Molding
- 12. Disadvantages 12 • Mold design is complex. • Requires Mold-filling Analysis. • Fiber reinforcement may Move during resin transfer. Resin Transfer Molding
- 13. Application: 13 Resin Transfer Molding • • • • Wind Turbine blade. Ship body. Car body. Truck panel.
- 14. Manufacturing Process of thermoplastics polymers: Injection Molding • Closed Mold process • Polymer is Mixed with very short reinforcing fibers (10- 40%) • Polymer-fiber mixture in form of pellets is fed through a hopper. • The material is then conveyed forward by a feeding screw and forced into a split mold, filling its cavity through a feeding system with sprue gate and runners. 14
- 15. Injection Molding (CONT.) • Reciprocating screw since it not only rotates but also moves forward and backward according to the steps of the molding cycle. • It acts as a ram in the filling step. • then retracts backward in the molding step. • Heating elements, placed over the barrel, soften and melt the polymer. • The mold is equipped with a cooling system providing controlled cooling and solidification of the material. Cooling channel 15
- 18. INJECTION MOLDING Advantages o Process can be fully automated o High productivity & quality o Price less low 18
- 19. APPLICATIONS OF PMCs 19 Aerospace and Military Aircraft The aerospace industry is estimated to consume about 50 percent of advanced composites production in the United States. The primary matrix materials used in aerospace applications are epoxies, and the most common reinforcements are carbon/graphite, aramid (e.g. Kevlar), and high-stiffness glass fibers. Compared with metals, the principal advantages of advanced composites in aerospace applications are their superior specific strength and stiffness, resulting in weight savings of 10 to 60 percent over metal designs.
- 20. APPLICATIONS OF PMCs Aerospace and Military Aircraft Composites in Boing 787 body 20
- 21. Automotive Industry The principal motivation for introducing PMCs is cost savings Because the industry is mature and highly competitive. Because of greatly improved corrosion resistance PMC automobiles could last 20 or more years compared to the current average vehicle lifetime. 21 APPLICATIONS OF PMCs
- 22. APPLICATIONS OF PMCs 22 Automotive Industry
- 23. . APPLICATIONS OF PMCs Construction A potentially high-volume market for PMCs lies in construction applications especially in.. Construction of Buildings Bridges Housing Lampposts Smokestacks Highway culverts The smith road bridge all-composites bridge, Ohio, USA 23
- 24. Medical Devices The impact of PMCs on orthopedic devices such as 24 Hips Knees bone plates, intramedullary nails is expected to be especially significant. APPLICATIONS OF PMCs
- 25. Advantages of PMC 25 Good inplane stiffness and strength. Low density. Relatively low cost. Corrosion resistance. Low coefficient of thermal expansion. Relatively mature technology. Excellent in-service experience.
- 26. Limitations of PMC 26 Low maximum working temperature. Sensitivity to radiation and moisture. Processing temperature are generally higher than those with thermosets. Required special processing equipment. Thermoset resins have poor impact resistance.
- 27. Conclusion In 21st century we are in need of light but stronger materials. From automobile to aerospace, medical , military technology and even in household we need heavy duty, corrosion resistant material. Here comes the composites with all those specifications. And day by day the field of composite materials is getting stronger. Among all the composites Polymer Matrix Composites (PMC) have a strong place due to its specialization. 27
- 28. Thank You 28