Hydrogen Component Test Equipment - RheolabQC

Anton Paar GmbH

Wide speed and torque measurement ranges
PC control via software with RS232 or LAN-Ethernet connectivity
Wide range of measuring geometries (concentric cylinder, double gap, vane, spindles)
Peltier temperature control option (0 °C to 180 °C) without external circulator

RheolabQC is a rotational rheometer designed for quality control applications, enabling routine viscosity measurement and rheological analysis. It operates according to the Searle principle and is equipped with a high-precision encoder and a highly dynamic EC motor. The instrument supports both controlled shear rate (CR) and controlled shear stress (CS) test modes, allowing it to perform a wide range of rheological tests typically associated with advanced research rheometers. It is suitable for evaluating flow behavior, viscosity curves, yield point determination, and structural properties of materials such as emulsions, dispersions, coatings, gels, and pastes. RheolabQC combines robust design with user-friendly operation, offering both manual control via keypad and software-based operation through PC connectivity. It is widely used for quality assurance, process monitoring, and material characterization across multiple industries.

Use Cases

Quality control of viscosity and rheological properties
Analysis of emulsions and dispersions
Process monitoring during mixing, dispersing, and production

Capabilities

Performs viscosity and rheological measurements using rotational rheometry
Enables temperature-controlled measurements from -20 °C to 180 °C
Provides automated measurement workflows and data analysis via software
Allows flexible configuration with multiple measuring geometries and accessories

Anton Paar GmbH

Anton Paar is a premium provider of analytical and material characterization solutions for the hydrogen value chain, specializing in the development of fuel cells, electrolyzers, and storage systems. They provide a comprehensive suite of instruments used to optimize catalyst efficiency, characterize gas diffusion layers, and analyze the structural properties of hydrogen storage materials (such as metal-organic frameworks). Their expertise spans the full research and production cycle—from the rheological behavior of catalyst inks to high-pressure gas sorption analysis and inline process monitoring for green hydrogen production.

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