CAVITATION DURING DEFORMATION OF PLASTICS Andrzej Pawlak Centre of Molecular and Macromolecular Studies, Polish Academy of Sciences, Lodz, Poland CAV 2012,

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CAVITATION DURING DEFORMATION OF PLASTICS Andrzej Pawlak Centre of Molecular and Macromolecular Studies, Polish Academy of Sciences, Lodz, Poland CAV 2012, Singapore

Plastics production 265 Mt Semicrystalline polymers: polyethylene, polypropylene, polyamide, poly(ethylene tereftalate)....

Polarizing optical microscope: polypropylene film Spherulite:

Cavities in polymers are observed: -in the molten polymer during its isothermal crystallization -during tensile deformation of solid polymer

Galeski, et.al., Macromolecules 21, 2761 (1988)‏ Nitta K.H., et.al., J. Mater. Sci. 38, 4889 (2003)‏ Thomas C, Seguela R. et.al., Polymer 48, 6041 (2007)‏ 12 μm0

A. Pawlak, A. Galeski, Macromolecules, 38, (2005)

CAVITATING NON CAVITATING DETECTION OF CAVITIES Nanometer size - Small Angle X-Ray Scattering Micrometer size- Scanning Electron Microscopy

Competition: - breaking of amorphous phase - cavitation - plastic deformation of crystals by chain slips One polymer: -modification of morphology (crystallization, orientation, polymorphism, molecular mass) -changing of experimental conditions (temperature, deformation rate)

Polyethylene: a) rapidly cooled during solidification b) slowly cooled during solidification

Polymorphism in polypropylene. Different crystalographic forms: α- monoclinic, β- triclinic

SCANNING ELECTRON MICROGRAPHS OF POLYPROPYLENE Initial structure Deformation: Strain = 30%, T= 20 o C Deformation: Strain = 30%, T= 70 o C STRETCHING DIRECTION

POLYPROPYLENE CRYSTALLIZED ISOTHERMALLY (125 o C)

CONCLUSION -Voids are observed in many semicrystalline polymers: during solidification from melt and during tensile deformation. -Cavitation process in deformed polymers occurs when the crystals are enough perfect and strong, i.e. when the stress for plastic deformation of crystals is higher than the stress needed for cavitation of the amorphous phase. -The cavities are nano- and micrometer size, usually ellipsoidal shape. -At low strain the cavities are elongated perpendicularly to deformation direction. Reorientation process sets in for local strains of %. -It is possible, by changing the processing or testing conditions, to control cavitating behavior of the selected polymer.

1. A. Pawlak, A. Galeski – “Plastic Deformation of Crystalline Polymers:The Role of Cavitation and Crystal Plasticity”, Macromolecules, 38, (2005) 2. A. Pawlak – “Cavitation during tensile deformation of high-density polyethylene”, Polymer, 48, (2007) 3. A. Pawlak, A. Galeski – „Cavitation during Tensile Deformation of Polypropylene”, Macromolecules, 41, (2008) 4. A. Pawlak, A. Galeski, “Cavitation and Morphological Changes in Polypropylene Deformed at Elevated Temperatures”, J. Polym. Sci., Part B: Pol. Phys., 48, (2010) 5. A. Pawlak, A. Galeski, “Cavitation during tensile drawing of annealed high density polyethylene”, Polymer, 51,(24), (2010) 6. A. Pawlak, A. Gałęski, „Cavitation during tensile drawing of semicrystalline polymers”, Polimery, 56, (9), (2011) 7. A. Pawlak, “Cavitation during deformation of polymers on the example of polypropylene”, J.Appl. Polym. Sci. (2012)