The Cannon Instruments Cannon-Ubbelohde Semi-Micro Viscometer, Uncalibrated, Size 500, is designed for precise measurement of the kinematic viscosity of small samples of transparent Newtonian liquids. Conforming to ASTM D445 and ISO 3104 standards, this uncalibrated viscometer is ideal for laboratories that require high-accuracy results with minimal sample volume.
With a minimum sample volume of approximately 1 mL (depending on size), this viscometer supports dilution up to 20 mL for intrinsic viscosity testing. The required bath depth is 240 mm (9.5 inches), ensuring stable temperature control. The viscometer’s semi-micro design is perfect for research and quality control environments where sample conservation is essential. Holders are sold separately.
Product Features
- Conforms to ASTM D445 and ISO 3104 standards for kinematic viscosity testing
- Requires ~1 mL minimum sample volume (depending on viscometer size)
- Supports dilution up to 20 mL for intrinsic viscosity measurements
- Uncalibrated model – allows for lab-specific calibration if required
- Minimum bath depth of 240 mm (9.5 inches)
- Precision-made for accurate and repeatable results
Benefits
- Ideal for laboratories handling limited sample quantities
- Flexible testing options including intrinsic viscosity analysis
- Reliable, reproducible results thanks to strict manufacturing standards
- Uncalibrated format provides cost-effective flexibility for custom calibration
- Durable and chemical-resistant glass design for long-term use
Why Choose the Cannon Instruments Cannon-Ubbelohde Semi-Micro Viscometer?
Trusted by scientific and industrial laboratories across Australia, Cannon Instruments delivers precision-engineered viscometers that meet global testing standards. The Cannon-Ubbelohde Semi-Micro Viscometer, Uncalibrated, Size 500, is an excellent choice for viscosity testing where sample size is limited and accuracy is paramount. Backed by Cannon Instruments’ legacy of innovation and reliability, this viscometer is an essential tool for any lab focused on high-performance fluid analysis.
