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Job Name: Muller Santa Ana <br />Job Number: 2021-SRS004 <br />Date: 11/17/22 <br />wrap around the two sides of the column with (3) 1" diameter F1554 Gr 55 rods <br />embeded 8" in HIT HY-200. This connection shows failure in shear breakout, but the <br />shear in this case is running parallel to the tension rebar in the concrete column. This <br />column has 4-#11 and 6-#8 bars spread out in it. A single #8 bar in tension can <br />carry the load transferred from the connection. <br />Connections at A3 thru A9, A12 thru A13, F5 thru F10 : See calculation C7 & C8 <br />These connections use a mix of saddling the beam and bolting to the side of the <br />column below. The worst loading condition occurs at F3 and A10: <br />, ̗Tmax -12.7kip ̗Vmax 17.8 kip <br />Brackets to the side of the column each take 1/4 of the tension load and the beam <br />saddle takes 1/2 of it. The 4 bolts passing through the slab each take 1/4 of the <br />shear. <br />See Calculation C7. Attach brackets to side of column w/ (2) 7/8" dia F1554 Gr 55 <br />w/ 8" embedment into the concrete column. <br />See Calculation C8. The rods passing through the slab are capable of carrying the <br />shear load. <br />The saddle connection to the beam and side brackets to the column have been <br />checked prior for higher loads that these columns experience. <br />Enercalc Checks of Garage Components (See Appendix D) <br />There are a number of connection types to the garage with differing existing <br />conditions. The tensile capacity of the highest load member types has already been <br />investigated in the previous section with checks of tensile rebar. That leaves us with <br />investigating the shear transfer to the garage. <br />At locations where the connection sits on the slab with a column below, the shear will <br />transfer directly into the slab which will carry it to the shear walls. At C1 and D1, the <br />saddle transfers shear directly into the shear walls below or the column below. <br />The condition that is most important to further investigate is the connetion to columns <br />that rise up above the deck. The following locations were investigated: <br />Column A10: This column extends 3'-6" above the deck and experiences the highest <br />shear reaction from the canopy at 17.8 kips. See calculation D1. <br />Page 5 <br />2677 N Main St - <br />101110159-60 & <br />20175958-5902/07/23