TY - JOUR
AU1 - Duekhodthod, Rossarin
AU2 - Kitkamthorn, Usanee
AU3 - Mitsomwang, Pusit
AU4 - Intaing, Tawatchai
AU5 - Borrisutthekul, Rattana
AB - Currently, lightweight materials with high performance have been strongly needed to meet the requirements of advanced structural materials. One of the promising lightweight materials is the metals fiber reinforced plastic composite, which usually gives good specific strength and high toughness. However, de-bonding between metal fiber and plastic is the main problem in the production and utilization of the composite. Recently, Katayama, et., al. studied the dissimilar materials joining between plastics and metals such as PET/SUS 304 and so on. The joint was succeeded with the reaction between the metal oxide and functional group in the molecule of the polymer. The possibility to join metal/plastic may provide the new approach to produce new design composites. Thus, the objective of the study is to investigate the feasibility to produce stainless steel fiber reinforced PET plastics composite (SFRP). In experiments, stainless steel mesh and PET sheet with 0.5 mm of thickness were used as materials to fabricate the SFRP composite. The hot pressing of sandwich stacks with inserted SUS304 wire mesh between two PET sheets was performed at 120°C. Results indicated that high strength composite without de-bonding could be obtained.
TI - Steel fiber/polyethylene terephtalate composites
JF - IOP Conference Series: Materials Science and Engineering
DO - 10.1088/1757-899X/1137/1/012026
DA - 2021-05-17
UR - https://www.deepdyve.com/lp/iop-publishing/steel-fiber-polyethylene-terephtalate-composites-iuARHDjS61
SP - 012026
VL - 1137
IS - 1
DP - DeepDyve
ER -