Based on the table below, which of the statements below is/are correct regarding the 3D printing process shown in the schematic? Z AXIS A Material Polyethylene (low density) Polytetrafluoroethylene Polyethylene (high density) Polypropylene Nylon 6,6 Polyester (PET) Poly(vinyl chloride) Polystyrene Polycarbonate X AXIS Y AXIS Table 15.2 Melting and Glass Transition Temperatures for Some of the More Common Polymeric Materials C. LEGEND: A: Extruder B: Nozzle C: Printed part 57 (135) 69 (155) D: Hot plate E: Filament Glass Transition Temperature [°C (°F)] -110 (-165) -97 (-140) -90 (-130) -18 (0) 87 (190) 100 (212) 150 (300) Melting Temperature [°C (°F)] 115 (240) 327 (620) 137 (279) 175 (347) 265 (510) 265 (510) 212 (415) 240 (465) 265 (510) O a. You can produce a room-temperature non-fragile 225C oven-safe food container with at least one material from the above table using this process and a 280C nozzle O b. Manufacturing a thermoplastic HDPE hose with an extrusion nozzle heated to 175C is possible with this process You can use this process to print plastic or brittle objects but not elastomers and rubbers d. You can print thermoplastic and thermoset polymers with this process, you only need to make sure that the nozzle specs and the crosslinking conditions match the polymer requirements Oe. This process is best suited for the low volume production of tubes, bars and beams due to the nature of the extrusion process

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Based on the table below, which of the statements below is/are correct regarding the 3D printing process shown in the schematic? Z AXIS Material Polyethylene (low density) Polytetrafluoroethylene Polyethylene (high density) Polypropylene Nylon 6,6 Table 15.2 Melting and Glass Transition Temperatures for Some of the More Common Polymeric Materials Polyester (PET) Poly(vinyl chloride) Polystyrene Polycarbonate X AXIS Y AXIS e. Glass Transition Temperature [°C (°F)] -110 (-165) -97 (-140) -90 (-130) -18 (0) LEGEND: A : Extruder B: Nozzle C: Printed part D: Hot plate E: Filament 57 (135) 69 (155) 87 (190) 100 (212) 150 (300) Melting Temperature [°C (°F)] 115 (240) 327 (620) 137 (279) 175 (347) 265 (510) 265 (510) 212 (415) 240 (465) 265 (510) O a. You can produce a room-temperature non-fragile 225C oven-safe food container with at least one material from the above table using this process and a 280C nozzle O b. Manufacturing a thermoplastic HDPE hose with an extrusion nozzle heated to 175C is possible with this process O c. You can use this process to print plastic or brittle objects but not elastomers and rubbers O d. You can print thermoplastic and thermoset polymers with this process, you only need to make sure that the nozzle specs and the crosslinking conditions match the polymer requirements This process is best suited for the low volume production of tubes, bars and beams due to the nature of the extrusion process