HTD-E-6S Field Portable Six Speed Rotational Viscometer Introduction: The HTD-E-6S field portable six speed rotary viscometer is a viscosity measuring instrument produced by our company. It is powered by a standard power adapter and can be used for a wide voltage band of 100-240V, 50Hz or 60Hz power drive, as well as portable lithium battery drive. This is a typical coaxial cylindrical rotational viscometer that contains the test fluid in the annular space (shear gap) formed between the outer sleeve and the float. When measuring viscosity, when the outer sleeve rotates at a set speed, the fluid will generate a viscous resistance, thereby measuring the viscosity of the fluid. The outer sleeve generates a torque on the float through liquid, which acts on a precision spring whose deflection can be measured. The measurement results are then compared with the test conditions and instrument constants. This system can simulate the real processes encountered in industrial processing. Technical parameters: Power supply: AC110/220V ± 5% 50/60Hz Power supply mode: mains power or lithium battery (can meet 4-hour uninterrupted use) Motor power: 40W Environmental temperature: ≥ 20 ± 5 ℃ ambient humidity: 45%RH~60%RH Motor speed: 720 r/min Variable speed range: 3、6、100、200、300、600r/min Measurement accuracy: ± 0.5 mPa. s (Newtonian fluid) Viscosity measurement range: Newtonian fluid: 0-300mPa. s (F1 measurement component) Non Newtonian fluid: 0-150 mPa. s (F1 measuring component) Shear stress: 0-153.3 Pa (F1 measuring component) Shell material: PET integrated shell Reading method: LCD large screen
Introduction: The HTD-E-6S field portable six speed rotary viscometer is a viscosity measuring instrument produced by our company. It is powered by a standard power adapter and can be used for a wide voltage band of 100-240V, 50Hz or 60Hz power drive, as well as portable lithium battery drive. This is a typical coaxial cylindrical rotational viscometer that contains the test fluid in the annular space (shear gap) formed between the outer sleeve and the float. When measuring viscosity, when the outer sleeve rotates at a set speed, the fluid will generate a viscous resistance, thereby measuring the viscosity of the fluid. The outer sleeve generates a torque on the float through liquid, which acts on a precision spring whose deflection can be measured. The measurement results are then compared with the test conditions and instrument constants. This system can simulate the real processes encountered in industrial processing.
