Aluminium blocks SHT for block heaters Stuart SBH series

Description

SHT Aluminium Blocks for Stuart SBH

The Aluminium blocks SHT for block heaters Stuart SBH series are designed to provide precise, efficient, and uniform heat transfer for laboratory heating applications. Manufactured from high-quality aluminium, these blocks ensure excellent thermal conductivity, allowing samples to reach and maintain target temperatures quickly and evenly. This makes them an essential accessory for laboratories that rely on accurate temperature control during incubation, heating, and sample preparation processes.

Engineered to fit seamlessly with block heaters in the Stuart SBH series, these aluminium blocks support a wide range of tube sizes and sample formats. Their precision-machined design ensures secure tube placement, minimizing temperature variation between samples and improving reproducibility across experiments. This level of consistency is particularly valuable in research, clinical, and industrial laboratories where repeatable results are critical.

Overall, the Aluminium blocks SHT for block heaters Stuart SBH series provide laboratories with a dependable solution for controlled heating needs. Their precise fit, excellent thermal performance, and durable construction make them an ideal addition for facilities seeking accuracy, efficiency, and compatibility with established heating systems.

LLG09951617, LLG09951618, LLG09951619, LLG09951620, LLG09951621, LLG09951622, LLG09951623, LLG09951624, LLG09951625
These precision-engineered heating accessories are designed to provide accurate and uniform temperature transfer when used with compatible block heater systems in the Stuart SBH series. Manufactured from high-quality aluminium, they ensure excellent thermal conductivity, allowing rapid heat distribution and consistent temperature stability across all sample wells. This promotes reliable and reproducible results in laboratory procedures that require controlled heating conditions.
Available in configurations to accommodate various tube sizes, these blocks offer flexibility for different experimental needs, including incubation, enzyme reactions, sample preparation, and molecular biology workflows. The precisely machined wells ensure secure tube placement and optimal contact, minimizing temperature variation between samples.
Their robust aluminium construction supports long-term laboratory use while resisting wear from repeated heating cycles. Easy installation and interchangeability allow users to switch between formats quickly, enhancing workflow efficiency in busy research, diagnostic, and academic environments.
By delivering dependable heat transfer and compatibility with SBH heating units, these accessories contribute to improved experimental accuracy and operational convenience. They provide laboratories with a practical and efficient solution for consistent sample heating across a wide range of applications.
Engineered for dependable laboratory heating applications, these modular inserts are crafted to deliver precise temperature control when paired with compatible dry block systems. The solid metal construction ensures fast heat-up times and even thermal distribution, helping to maintain consistent conditions for sensitive samples. Each cavity is accurately machined to hold tubes firmly in place, improving thermal contact and reducing temperature fluctuations during incubation. This level of stability supports reproducible outcomes in workflows such as DNA amplification preparation, enzyme activation, and sample digestion procedures.
Designed with practicality in mind, these inserts are easy to load, remove, and interchange, allowing laboratories to adapt quickly to different tube formats and experiment requirements. Their corrosion-resistant surface withstands repeated heating cycles without compromising structural integrity. The compact design optimizes bench space while supporting efficient sample organization. Suitable for research, clinical, and educational laboratories, they enhance overall heating performance and workflow productivity by ensuring uniform sample treatment across every run.