Studying the effect of different carbon and glass fabric stacking sequence on mechanical properties of epoxy hybrid composite laminates

“…www.ijsrp.org fiber layers followed by immediate drop due to failure of carbon fiber layers. A similar type of observation is reported in Nagaraja et al [6], while determining the suitable stacking sequence for glass and carbon fiber hybrid composite. Flexural test was conducted for all the hybrid composite laminates and force-displacement curves obtained are presented in Figure 7.…”

“…Hence the specimens are selected as [0/±α]2s combination with a change of angle by 15º and maintaining overall volume fraction. Studies have shown that laminates with carbon fiber positioned at exterior regions provides higher tensile and flexural strength [6]. So top and bottom three stacks are decided to be of carbon fiber/epoxy material (see Figure 1).…”

Numerical and experimental study of variation in mechanical properties of epoxy hybrid laminates due to change in orientation

“…www.ijsrp.org fiber layers followed by immediate drop due to failure of carbon fiber layers. A similar type of observation is reported in Nagaraja et al [6], while determining the suitable stacking sequence for glass and carbon fiber hybrid composite. Flexural test was conducted for all the hybrid composite laminates and force-displacement curves obtained are presented in Figure 7.…”

“…Hence the specimens are selected as [0/±α]2s combination with a change of angle by 15º and maintaining overall volume fraction. Studies have shown that laminates with carbon fiber positioned at exterior regions provides higher tensile and flexural strength [6]. So top and bottom three stacks are decided to be of carbon fiber/epoxy material (see Figure 1).…”

Numerical and experimental study of variation in mechanical properties of epoxy hybrid laminates due to change in orientation

“…[1,2] The synergy between two different reinforcements provides improvements in certain properties. [1][2][3] Nagaraja et al [4] observed an increase in tensile and flexural strength when carbon fiber is positioned in the exterior of hybrid (carbon/glass fiber) composite. Li et al [5] observed the long-term service of carbon/glass hybrid laminate with cycled load and temperature appliance, the results showed an increase of 50% in service time (years).…”

Mode I and mode II delamination of carbon/glass/epoxy hybrid composite: A statistics‐based analysis

“…In this case, Nagaraja et al studied the effect of stacking sequence on the tensile and flexural properties of carbon-glass/epoxy hybrid composite laminates. Out of the two laminates tested, the one with carbon fabric positioned at exterior regions showed highest flexural strength [ 124 ].…”

Physical, Mechanical and Perforation Resistance of Natural-Synthetic Fiber Interply Laminate Hybrid Composites