Design a tension member and its connection for the following conditions: . Length 15 feet ....
Design a slip-critical bolted connection for the following conditions: • All structural steel is A36 • Length = 10 ft. • The tension member is 2L7 x 4 x 7/16 LLBB. • The connection will be to a 3/8-inch-thick gusset plate • Service dead load = 50 kips and service live load = 100 kips. Provide a complete sketch showing all information needed for the fabrication of the connection. Use LRFD.
Pleqse show details and formulas. Select a single-angle tension member of A36 steel to resist a dead load of 20 kips and a live load of 50 kips. The length of the member is 20 feet, and it will be connected to a %-inch thick gusset plate with one line of 3/4-inch- diameter bolts through the long legs. There will be four or more bolts in this Q1) line Select a single-angle tension member of A36 steel to resist a...
The load on the bracket plate consists of a service dead load of 22 kips and a service live load of 44 kips. What diameter Group A bearing-type bolt is required? Use an elastic analysis and assume that the bearing strengths of the bracket and the column flange are adequate. a. Use LRFD. b. Use ASD 1/2 3" 3" 3" 3" 1%', 3 determine the required size if slip is permitted. The 10-kip load consists of 2.5 kips of service...
Steel Design 2. (50 pts) Design an A36-steel tension member 16 ft long consisting of two channels, bolted through their webs to a single 1 inch gusset plate, to transmit 75 kips DL and 93 kips LL. The bolts are 7/8 in. Bolt spacing 4 inch and bolt edge distance 3 inch. In addition to checking block shear in the channels, design the thickness of the gusset plate to resist block shear.
A double-angle tension member, 2L 3x2x 1/4, is subjected to a dead load of 12 kips, and a live load of 36 kips. It is connected to a gusset plate with one line of 3/4-inch-diameter bolts through the long legs. Is this member safe? Assume U=0.85. Fy =36 ksi and Fu = 58 ksi.
which has l A single angle tension member,Ladx3/8 kength of 7 and o'% as show bl, is made from A36 steel is connect to 3/8-in thickness ckness gust plate are 28 kips dead load and 20 kips using LRFD method and AISC )." The wrvice loads are 28 kips The servive By live load yewifivations determine the followings ) The adeyuacy of this member 2) Check Ar slenderness /s" PL which has l A single angle tension member,Ladx3/8 kength of...
S- Section FIGURE P3.2-3 APL⅜x6tension member is steel is A36. Assume that A, A, and compute the following. a. The design strength for LRFD. b. The allowable strength for ASD. 32-4 APLx6 tension member is welded to a gusset plate as shown in Figure P3.2-4. The :and compute 3.2-4 ameter bolts, as shown A,A, and compute the FIGURE P3.2-4 ion member shown in Figure P3.2.5 is a PL tax 8 of A36 steel. The mem- ted to a gusset plate...
5.14-3 Design a base plate for a W12 × 87 column supporting a service dead load of 65 kips and a service live load of 195 kips. The support will be a 16-inch × 16-inch concrete pier. Use A36 steel and = 3.5 ksi. a. Use LRFD b. Use ASD
2_...-3.5.1.3.5. 1 2 Q.4. A C7 x 9.8 tension member is connected to a 2/7-in.-thick gusset plate. Both the member and the gusset plate are A36 steel C79.8 O o o a) (15%) Compute the available block shear strength of the tension member for LRFD b) (10%) Compute the available block shear strength of the gusset plate for LRFD t-217 Wh-diameter bolts
Design the lightest available W14 (A992) tension member by the 2016 AISC LRFD for a truss that will carry service DL = 100 kips and service LL = 320 kips. The member is 30 ft. long. The flanges will be bolted to the connection plates (A36) with -in bolts so that four bolts will appear on the cross-section Assume there are at least three bolts per line, standard holes, and the connection is adequate. Hint: Consider all applicable limit states.