For a continuous and oriented fiber-reinforced composite, the moduli of elasticity in the longitudinal and transverse...

A fiber-reinforced composite material has moduli of elasticity in the longitudinal and transverse directions of 6.9...

A fiber-reinforced composite material has moduli of elasticity in the longitudinal and transverse directions of 6.9 GPa and 3.5 GPa, respectively. If fibers make up 25% of the composite volume and 56% of them are oriented in the longitudinal direction, find the moduli of elasticity of the fiber and matrix phases. Assume that all fibers not oriented in the longitudinal direction are oriented transversely.

for a continuous and aligned Kevlar-29 fiber-reinforced composite, the modulus elasticity in the longitudinal direction is...

for a continuous and aligned Kevlar-29 fiber-reinforced composite, the modulus elasticity in the longitudinal direction is 19 GPa and the modulus of elasticity in the transverse direction is 7.7 GPA​. if the volume fraction of fibers is 0.40, what is the modulus of elasticity for the fiber phase?

( Calculate the modulus of elasticity of a fiber-reinforced polymer composite under isostrain condition if the...

( Calculate the modulus of elasticity of a fiber-reinforced polymer composite under isostrain condition if the composite consists of 35% fibers and 65% polymer by volume. Also, calculate the percentage of load carried by the fibers. The modulus of elasticity of the fibers and the polymer are 345 GPa and 3.5 GPa, respectively .

3. Composites with fiber-reinforced structures with continuous and aligned fiber properties are made of 45 vol%...

3. Composites with fiber-reinforced structures with continuous and aligned fiber properties are made of 45 vol% aramid fiber and 55 vol% polycarbonate matrix. The mechanical characteristics of the two materials can be shown in the following table Modulus of Elasticity [GPa (psi)] Tensile Strength [MPa (psi)] Aramid fiber 131 (19 × 106) 3600 (520000) Polycarbonate 2.4 (3.5 × 105) 65 (9425) When the aramid fiber breaks, the stress on the polycarbonate matrix will be 35 MPa (5075 psi). Determine it...

A continuous and aligned carbon fiber-reinforced composite consists of 60% by volume of high-strength carbon fibers...

A continuous and aligned carbon fiber-reinforced composite consists of 60% by volume of high-strength carbon fibers having a tensile strength of 3.9 GPa reinforced in a polyester resin that, when hardened, displays a tensile strength of 50 MPa. What is the tensile strength of this composite in the longitudinal direction?

Determine the Moduli of Elasticity of Carbon/Epoxy composite in the longitudinal direction, given that the composite...

Determine the Moduli of Elasticity of Carbon/Epoxy composite in the longitudinal direction, given that the composite consists of 30 vol% epoxy and 70 vol% fiber. Take Modulus of Elasticity of epoxy equal to 2.4 GPa and Modulus of Elasticity of Carbon equal to 230 GPa. Round off your answer to five significant figures. Do not include the units.

Two composite materials were suggested to be used for specific application under isostrain condition. The first...

Two composite materials were suggested to be used for specific application under isostrain condition. The first composite material consists of 20% aramid fibers (modulus of elasticity:19×106 psi) and 80% polycarbonate matrix (modulus of elasticity: 3.5×105 psi). The second composite material consists of unidirectional carbon-fiber reinforced –plastic. 20% fiber (modulus of elasticity: 55×106 psi) and 80% matrix (modulus of elasticity: 0.5×106 psi). a) If the application requires modulus of elasticity to be not less than 11×106 psi. Which composite material do...

Consider a UD carbon fiber reinforced epoxy composite (Ef = 240 GPa, Em = 8 GPa)...

Consider a UD carbon fiber reinforced epoxy composite (Ef = 240 GPa, Em = 8 GPa) subjected to axial and transverse tensile loads. 1. Plot the variation of E1 and E2 with fiber volume fraction (vf).