CEDAR 5.1 5 )R'?Pkw??2Oc߱?f` ?Hu}W?@?vHu}W?@?Hu}W?@??cm9RFߑ??FyO_______VwOvwOFyOyOfyOn{OvO~OfwO`yOM@yO| {Gz?bbq?Gz?¹o?? A6?yGz?6>Yy?Q?LU?{Gz?]K0?Q?atq?{Gz?""{?{Gz?$Ls=H?xGz?~|a? ףp= ?l@r?Gz?cfEGL? A{Gz?RyO\? A?RzO\? AQ?R_\? AQ?R_? A{Gz?R_? A ףp= ?R_\?yO(10.00 cm + y1())(10cm + y2())(10 cm + y3())(10cm + y4())(10cm + y5())(10cm + y6())O_{@N?Yy?@K-valueN?Yy?c_*@vtI«?o:!?@Initial pressure (0-6 bar) vtI«?o:!?Z_,@~:pι?mYc?@Desired pressure ~:pι?mYc?a_+ @7B?`48?@Volume to fill (dm^3) l7B?`48?^_).@ |Pk?ޖ:&?@C-value of the valve |Pk?ޖ:&?_$@@ []r?uc?@Time to fill a known volume with pressurized air. Entered parameters are start pressure, desired pressure, volume and the C-value of the valve (according to Rexroth) []r?uc?_@_dbarj@?{Gz?(\?ERA?1.501{Gz?(\? \NwO____~wOFwO IP() barVwO@^wO`dbarj@?{Gz?{Gz?_A?4.71{Gz?{Gz? \nwO yOfwO dp() bar P_desiredzvwO @nyOp@d{Gz?333333?I@50{Gz?333333? \>yO6yO50Volume}FyO1@NyOd{Gz?Q?@0@16.25{Gz?Q? \VyO6yOcv()C-valueyOM@!^yO{Gz?<,?/NPƯ?<,? Q{ORV{O?/NPƯ?<,? U^{O/NPƯ?<,?yO fyOfwO4)(10 cm)+{P_desired}.value/(1 bar)*(1 cm)0 tfyO@"f{O/NPƯ?<,?/NPƯ??yO Rv{O!/NPƯ? U~{O n{On{O10270 qn{O@#{Od/NPƯ??&DOut?ip00.0012000_46yOFOjOBOZ6time7time={K-factor}.value*{Volume}.value/{C-value}.value s,&6timeMh(??~OJOvf2_RORObO+%{y1,y={Cell18}.value/(1 bar) y1=IF(Y>6,6,Y) cmB:yut?+y1ut??yO2_jOzOOO41;>y25y=0.76*{Cell18}.value/(1 bar)+2.0 y2=IF(Y>6,6,Y) cmB:"ydF @4y2dF @?yO2FwOJOzOZO=4Ooy35y=0.65*{Cell18}.value/(1 bar)+3.5 y3=IF(Y>6,6,Y) cmB:"yv^)@4y3v^)@?yO2~wObOOrO651!y46y=0.52*{Cell18}.value/(1 bar)+4.65 y4=IF(Y>6,6,Y) cmB:#y_!<ڸ@5y4_!<ڸ@?yO2_zOrOO@4%Lyy55y=0.23*{Cell18}.value/(1 bar)+5.5 y5=IF(Y>6,6,Y) cmB:"yada@4y5ada@?yO2_OOO&4P%pzy65y=0.05*{Cell18}.value/(1 bar)+5.9 y6=IF(Y>6,6,Y) cmB:"yׁs@4y6ׁs@?yOFyO_______VwOvwOFyOyOfyOn{OvO~OfwOMarlett Arial"Arial"Arial"Arial"Arial " Metric (CGS)FyOn{OVwOvwO