In this study, we established a probe tack tester to measure fluid rheological properties by this miniaturized squeezing & stretching system. Instead of traditional plate, I used a smaller probe which had the advantages of low fluid & time consumption. First, we studied the mechanism of squeezing & stretching test quantitatively, and we found the Scott theory can predict experiment results well under the lubrication conditions. And then we explain how to calibration the compliance and damper effect of the transducer. The experimental results with the transient measurement method, which proposed in this thesis, can calculated the rheological properties of the fluids. The measurement results found the error between the standard value and measured value of silicone oil viscosity within 5%, and for the rheological properties of the non-Newtonian fluid, the measured rheological trends also corresponding the standard value in the high shear strain range, it shows this method can be applied in the measurement of the viscosity of the Newtonian fluid and non-Newtonian fluid, with the advantages of low fluid & time consumption. In addition to the measurement of viscosity, mechanical concept is also explained of various experiments, as the based on the quantitative analysis of the viscoelastic squeezing and stretching viscous fluid.