temperature: -10 to 50C, VALVE, SGL, PLUG-IN, VALVE, SQ2000 VALVE, SOL 4-WAY, UD, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristic (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
temperature: -10 to 50C, VALVE, SGL, PLUG-IN, VALVE, SQ2000 VALVE, SOL 4-WAY, UD, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristic (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
temperature: -10 to 50C, VALVE, SGL, N/PLUG-IN, VALVE, SQ2000 VALVE, SOL 4-WAY, UD, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristics (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
temperature: -10 to 50C, VALVE, SGL, N/PLUG-IN, VALVE, SQ2000 VALVE, SOL 4-WAY, UD, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristics (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
temperature: -10 to 50C, VALVE, SGL, N/PLUG-IN, VALVE, SQ2000 VALVE, SOL 4-WAY, UD, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristics (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
-10 to 50C, VALVE, DBL, PLUG-IN, DBL SOL, VALVE, SQ2000 VALVE, SOL 4-WAY, UE, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristic (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
-10 to 50C, VALVE, DBL, PLUG-IN, DBL SOL, VALVE, SQ2000 VALVE, SOL 4-WAY, UE, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristic (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
10 to 50C, VALVE, DBL, N/PLUG-IN, DBL SOL, VALVE, SQ2000 VALVE, SOL 4-WAY, UE, SQ2000 BUILT IN FITTING .00000 lb SeriesType of actuationSealModelFlow characteristics (1)Response time (ms) (2)Weight (g) 1 4/2 (P A/B)4/2 5/3 (A/B R1/R2
Title not found Calculate the area of the cylinder piston Area = r2 where = 3.1416 r = 12 the bore diameter 2. Multiply the piston area by the air pressure to be used. Area x Pressure = Force Output Example: What is the theoretical force output of a 2 12 bore cylinder operating at 80 lbs. per square inch air pressure? Step 1.
Calculate the area of the cylinder piston Area = r2 where = 3.1416 r = 12 the bore diameter 2. Multiply the piston area by the air pressure to be used. Area x Pressure = Force Output Example: What is the theoretical force output of a 2 12 bore cylinder operating at 80 lbs. per square inch air pressure? Step 1.
Light gray (GR2) KQG2 Neon pink (P1) Solid purple (PU1) KG Clear purple (PU2) Caution Solid red (R1) KFG2 Clear red (R2) 1. Applicable for general industrial water. Please consult with SMC if using for the other kind of fluid. Also, the surge voltage pressure must be under the maximum operating pressure.
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 7.55546 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 11.22000 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 7.04462 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 7.52216 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 7.52216 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 6.49000 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 6.60000 lb
CYLINDER, R2, 80MM CKZN SLIM LINE CLAMP CYL, 8.36000 lb