State-of-the-art Engineering Equipment

“Groundbreaking Achievement: Locally Developed Capillary Rheometer Successfully Delivered to UET Lahore”


Highlight the significance of the achievement and its impact on the local industry and educational institutions. Celebrate the successful design and development of the capillary rheometer from scratch and its delivery to the Polymer and Process Engineering Department at UET Lahore. Conclude by reiterating the significance of this achievement, the impact it may have on local industries and educational institutions, and express pride in the team’s accomplishment.

Key Features

Briefly summarize the key features of the SM-111 Capillary Rheometer, emphasizing its advanced technology, safety measures, and versatility.

Working Principle

Explain the working principle of the capillary rheometer, detailing how it measures viscosity at higher shear rates and its applications in material flow characterization.


Provide a detailed breakdown of the specifications, covering aspects such as drive, temperature control, dies, barrel, pressure, and power. Include technical details like force range, speed control, and temperature range.


Highlight the software used for configuring experiments and analyzing data. Discuss its features, including basic analysis, derived curves, test types, rheometer control, die database, and more.


Include sample graphs illustrating constant shear and extensional tests, as well as melt fracture/flow instability tests.