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1 <br /> w <br /> LCY/hr: <br /> Loader = 60 min/hr divided by , G min/Truck load cycle* _ .2,4. cycles/hr <br /> e3 f cycles/hr x LCYaadj. Truck payload = -21o, s- r (unadjusted) <br /> 7 ucTc loading time pTu zchange time. <br /> adjusted production: <br /> 7/o�-LCY/hr x job efficiency** x s-r, altitude adj. = -5-o7,aLCY/hr <br /> Truck = 60 min/hr divided by 12. 1 min/cycle cycles/hr <br /> y cycles/hr x adj. truck payload ad LCY/hr <br /> (unadjusted) <br /> adjusted production: <br /> iy/ LCY/hr x ,E-3 job efficiency** x ,e altitude adj. = 98. 3 LCY/hr , <br /> average for aTTshifts utilized <br /> Production balancing: <br /> divided by 98. 3 = S 2 trucks required for team* <br /> loader r Truck r <br /> *round to nearest whole number = 5' actual trucks utilized <br /> Note: For information on determining the most efficient truck/loader team <br /> combination for a particular job, please refer to Section VII of the <br /> estimating manual . <br /> Net hourly production for team = 9/, �� LCY/hr (use loner production figure <br /> between hourly loader production and hourly truck team production) <br /> Hourly fleet production = S/Sj S LCY/hr/team x 1 teams = yj LCY/hr <br /> JOB COST: <br /> Team cost/hr: Loader S-6 /hr <br /> haul truck = 5 7 /hr x j'-- trucks = yg5- �$-/hr <br /> _ $ /hr team <br /> Fleet cost/hr = $ �aG , r, /hr/team x j teams = $ �az� _ /hr <br /> Total job hours: <br /> cFb 6 -7 LCY divided by Y< /I, LCY/hr = hours <br /> tots materia vo fleet pro . totaljobtime <br /> /6-, hrs x $ �� .�� /hr = $ /0 , a g Total Job Cost <br /> tot. job timehourly fleet cost <br /> unit cost/LCY = $ v 0 R divided by -7 _ $ / a -;z /LCY <br /> total job cost total material voT. <br /> i <br />