Radiation Curing: Coatings and Composites

23.10.2014 Views
Industrial Electron Beam Markets WIRE CABLE TUBING SURFACE CURING SERVICE OTHER TIRES SHRINK FILM >1400 high current EB manufacturing installations

Electron Beam Parameters Voltage = Electron Penetration = Thickness Penetrated Amperage = Beam Current = Exposure Intensity Kilowatts = Megavolts x Milliamps kW = MV x mA

Page 1: Radiation Curing: Coatings and Comp

Page 5 and 6: 80 - 120 keV Development Unit 1.5 m

Page 7 and 8: Low-voltage EB Equipment 300 keV se

Page 9 and 10: X-ray Conversion

Page 11 and 12: Unipolis 10 MeV EB/X-ray Facility

Page 13 and 14: Brenner-Campbell Conclusions

Page 15 and 16: Surface Tension Tests 55 Contact An

Page 17 and 18: VARTM with PC/HDPE Platens Wetted c

Page 19 and 20: Solubility EB/X-ray Cured Samples G

Page 21 and 22: Toughness Testing 123 cm Falling tu

Page 23 and 24: Properties Six Ply Carbon Fiber Rei

Page 25 and 26: Developing Molecular Structures Con

Page 27 and 28: Microphase Understanding Intra-mole

Page 29 and 30: Thermal Analysis Resin Systems X-ra

Page 31 and 32: Dynamic Mechanical Analysis Used by

Page 33 and 34: Dynamic Mechanical Analysis tan δ

Page 35 and 36: Pragmatic Tests: TMA TMA in compres

Page 37 and 38: Heat Deflection Test 1.82 MPa 100 m

Page 39 and 40: X-ray Curing Studies Initial X-ray

Page 41 and 42: X-ray Curing Composites in the Mold

Page 43 and 44: X-ray Cured Sports Car Fender

Page 45: Conclusions + Some properties devel

cured

curing

fiber

additive

carbon

diacrylate

matrix

mold

composites

analysis

radiation

coatings

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