Help me answer please. Thank you. A composite beam is made of two brass [E = 111 GPa] bars bonded to two aluminum [E = 75 GPa] bars, as shown. The beam issubjected to a bending moment of 395 N-m acting about the z axis. Using a = 15 mm, b = 115 mm, c = 25 mm, and d = 75 mm, calculate(a) the maximum bending stress in the aluminum bars.(b) the maximum bending stress in the brass bars.ZAluminumCAluminumAnswers:(a) oal =Brass(b) Obr=iibBrassCadaMPaMPa

Answered: Image /qna-images/answer/28280ec6-2ac7-4f9c-8083-47570b8fe2a9.jpg

A composite beam is made of two brass [E = 111 GPa] bars b subjected to a bending moment of 395 N-m acting about the (a) the maximum bending stress in the aluminum bars. (b) the maximum bending stress in the brass bars. N Aluminum Brass Brass a d

A composite beam is made of two brass [E = 111 GPa] bars b subjected to a bending moment of 395 N-m acting about the (a) the maximum bending stress in the aluminum bars. (b) the maximum bending stress in the brass bars. N Aluminum Brass Brass a d

Steel Design (Activate Learning with these NEW titles from Engineering!)

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Chapter1: Introduction

Section: Chapter Questions

Problem 1.5.6P: The data in Table 1.5.3 were obtained from a tensile test of a metal specimen with a rectangular...

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Concept explainers

Types of Composite

Composite materials are formed by merging two components that have different chemical and physical properties. The merged output is termed as a composite, whose properties are completely different from the individual components. Composite materials also have better strength than the individual components.Composite materials usually have two main parts, reinforcement material, and matrix material. The matrix material acts as a binder and surrounds the fiber of another material that bears a much higher strength. This material is known as the reinforcement material. The matrix materials are usually high-strength additives resins, while the fibers of the reinforced material can be random, oriented, and in a mat format.Composite materials are also known as fiber-reinforced composite polymers because they are composed of the polymer matrix which is reinforced to laboratory-created fibers or naturally occurring fibers, such as glass fibers, carbon fibers, or aramid fibers. Under the application of external loads, the matrix material absorbs and transfers the loads to the fibers, these fibers in return provide good compressive strength, tensile strength, and stiffness to the fiber-reinforced composite materials.Depending upon the matrix and the reinforcement material, different properties can be induced to the fiber-reinforced composite materials, including good corrosion resistance properties. The most common matrix material is the resin while the glass fibers act as the reinforcement material. Strong fibers provide strength and stiffness to the composite materials while, a soft and flexible resin provides shape to the composite materials.

Question

Help me answer please. Thank you.

A composite beam is made of two brass [E = 111 GPa] bars bonded to two aluminum [E = 75 GPa] bars, as shown. The beam is
subjected to a bending moment of 395 N-m acting about the z axis. Using a = 15 mm, b = 115 mm, c = 25 mm, and d = 75 mm, calculate
(a) the maximum bending stress in the aluminum bars.
(b) the maximum bending stress in the brass bars.
Z
Aluminum
C
Aluminum
Answers:
(a) oal =
Brass
(b) Obr=
i
i
b
Brass
C
a
d
a
MPa
MPa

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