A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B. When put in place, however, a gap of A = 0.25 in. exists between the two pipes. Bronze pipe (1) has an elastic modulus of E1 = 16,000 ksi, a cross-sectional area of A, = 2.83 in.2, and a length of L1 = 6.9 ft. Aluminum alloy pipe (2) has an elastic modulus of E2 = 10,000 ksi, a cross-sectional area of A2 = 1.47 in.2, and a length of L2 = 12.0 ft. If bolts are inserted in the flanges and tightened so that the gap at B is closed, determine: (a) the normal stresses produced in each of the members. (b) the final position of flange B with respect to support A. L2 B (2) (1)
A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B. When put in place, however, a gap of A = 0.25 in. exists between the two pipes. Bronze pipe (1) has an elastic modulus of E1 = 16,000 ksi, a cross-sectional area of A, = 2.83 in.2, and a length of L1 = 6.9 ft. Aluminum alloy pipe (2) has an elastic modulus of E2 = 10,000 ksi, a cross-sectional area of A2 = 1.47 in.2, and a length of L2 = 12.0 ft. If bolts are inserted in the flanges and tightened so that the gap at B is closed, determine: (a) the normal stresses produced in each of the members. (b) the final position of flange B with respect to support A. L2 B (2) (1)
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B. When put in place, however, a gap of A = 0.25 in. exists
between the two pipes. Bronze pipe (1) has an elastic modulus of E, = 16,000 ksi, a cross-sectional area of A, = 2.83 in.?, and a length
of L1 = 6.9 ft. Aluminum alloy pipe (2) has an elastic modulus of E2 = 10,000 ksi, a cross-sectional area of A2 = 1.47 in.2, and a length of
L2 = 12.0 ft. If bolts are inserted in the flanges and tightened so that the gap at B is closed, determine:
(a) the normal stresses produced in each of the members.
(b) the final position of flange B with respect to support A.
L2
В
(1)
Answer:
(a) σ1-
ksi
02 =
ksi
(b) OB/A =
in.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F527d5a0a-3f35-4ff7-a0d6-4b07d9c672e0%2Fd2bafee2-8c7b-48c2-836f-9076aaa675b0%2Fhrvl64t_processed.png&w=3840&q=75)
Transcribed Image Text:A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B. When put in place, however, a gap of A = 0.25 in. exists
between the two pipes. Bronze pipe (1) has an elastic modulus of E, = 16,000 ksi, a cross-sectional area of A, = 2.83 in.?, and a length
of L1 = 6.9 ft. Aluminum alloy pipe (2) has an elastic modulus of E2 = 10,000 ksi, a cross-sectional area of A2 = 1.47 in.2, and a length of
L2 = 12.0 ft. If bolts are inserted in the flanges and tightened so that the gap at B is closed, determine:
(a) the normal stresses produced in each of the members.
(b) the final position of flange B with respect to support A.
L2
В
(1)
Answer:
(a) σ1-
ksi
02 =
ksi
(b) OB/A =
in.
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