Composites are widely used in marine and aerospace applications due to their lightweight, resistance to corrosion and fatigue, and high specific stiffness and strength. This recent study used vinyl ester-based plain e-glass and hybrid composites of e-glass/carbon and kevlar-carbon/carbon fabricated by VARI methods. Tensile, shear, and compressive strength of composites are investigated according to ASTM standards. Comparison of the results to Al 6061-T6 was evaluated. Tensile and compressive strength of kevlar-carbon is superior to e-glass and e-glass carbon. The shear strength of e-glass/carbon hybrid composites is superior to e-glass and kevlar-carbon/carbon composites. Tensile and compressive strength of e-glass/carbon and kevlar-carbon/carbon hybrid composites are higher than Al 6061-T6. However, the shear strength of e-glass, e-glass/carbon, and kevlar-carbon/carbon composites are lower than Al 6061-T6.
Tensile, shear, and compressive strength of glass, glass/carbon, and kevlar/carbon reinforced vinylester for marine application
THE 8TH INTERNATIONAL SEMINAR ON AEROSPACE SCIENCE AND TECHNOLOGY – ISAST 2020 ; 2020 ; Bogor, Indonesia
AIP Conference Proceedings ; 2366 , 1
13.09.2021
7 pages
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
American Institute of Physics | 2021
|Effect of long-term moisture exposure on impact response of glass-reinforced vinylester
SAGE Publications | 2021
|