All categories
Featured selections
Trade Assurance
Buyer Central
Help Center
Get the app
Become a supplier
(40 products available)
Ready to Ship
Rotary water bath isothermal shakers have different types. Those types have different specifications for temperature, speed, and volume, depending on how the product will be used. Here are the ones:
This type of shaker creates a circular motion that is usually titled at around 25-60 degrees from the horizontal plane. Orbital shakers are, thus, considered multipurpose equipment since they can perform aerobic cell culture, DNA/RNA extractions, and general labs for science research. They are fitted with water baths, so they help heat or cool the samples in the shaker.
The linear water bath shakers produce a back-and-forth motion. This shaking is good for biological samples needing gentle mixing, such as bacteria, which is better in a stable environment. Linear models, through their rigid water systems, allow for precise temperature control. It, therefore, becomes ideal for long-duration experiments that require either a constant heat, cool, or both.
Hybrid shakers provide orbital and linear motions. This motion combines the advantages of both movements and, thus, is more suitable for complex biological tasks. These models are widely used for very specific tasks, such as protein studies requiring particular combinations of environmental factors.
These are isothermal shakers combined with incubation systems. The shakers can provide not just shaking but also precise temperature control. They are ideal for experiments in cell cultures, especially for studying kinetics, which often requires specific environmental conditions.
The choice of the type of rotary water bath isothermal shaker is based on the specific applications in the laboratories and industries. These known applications include biology, chemistry, and materials science, which all have their own specific requirements for sample treatment. There are also efficiency, accuracy, and throughput factors taken into account when deciding on the shaker system.
The rotary water bath isothermal shakers have several features. These features are:
Shakers maintain a temperature range. The maximum temperature range is 95 degrees Celsius with an accuracy of ±0.1 degrees C. This accuracy is crucial for biochemical reactions involving enzymes and other temperature-sensitive substances. Quick heaters make the device reach target temperatures faster. The programmable heating feature allows pre-set temperature profiles for specific experiments.
This shaker operates in several modes depending on the sample's need. These modes include constant, which means there will be steady shaking, and intermittent, where shaking is done in cycles. Others are orbital, linear, and multi-functional.
The constant mode is meant for simple tasks where the sample has to be mixed uniformly. The vibrating patterns of the device's other modes can help replicate specific conditions found in biological systems. For instance, cells might respond better to a motion type that imitates their natural environment. The wrong mode can damage cells or proteins, so proper selection is crucial.
Most shakers hold 200 mL to 5 L sample size. Consider the model to use based on the experiments and frequency done is essential. A shaker with a larger capacity is better suited for large sample testing in pharmaceuticals. A smaller one would work for frequent test analysis in biotech, chemical labs, or academic research.
The main parts of the shaker are stainless steel, metals, and plastics. Stainless steel is corrosion-resistant and hence used for water baths. Internal parts metals like aluminum provide good conductivity, which ensures even heating throughout the water bath.
The shaker's outer casing is made of high-strength plastic to prevent rust and damage. These materials ensure the shakers withstand years of constant use in the lab environments.
These isothermal shakers are thus used in many experimental procedures in life science labs. Examples of the said applications are cell cultures, enzyme reaction studies, and DNA assays. They are essential equipment in pharmaceutical research that constantly needs precise temperature control while mixing several solutions.
The rotary water bath isothermal shakers have many commercial applications. Here are a few of them:
The shakers help during drug testing by holding up samples at set temps while mixing them. It helps researchers see how drugs affect cells over time. The precise conditions give good results, making drug development faster.
Biotech labs use the shakers to do DNA and protein tests. It provides the right conditions for reactions to happen. The shakers speed up research for new treatments by keeping everything organized and at the right temps.
Food companies check how drinks and meals change over time in different conditions. The Rotary water bath shakers let them test flavor aging and safety reactions. It speeds up safety checks and quality control for foods and drinks.
In farming research, the shakers test plant growth chemicals. Labs check how different mixes help plants grow stronger and feed more people. The precise control lets scientists find the best solutions for healthier crops.
Environmental scientists examine the impact of pollutants on microbes. This impact is checked at specific temperatures and for certain periods. The shakers help determine how to clean up areas and protect natural habitats. They, therefore, speed up environmental testing.
When choosing the rotary water bath isothermal shaker, several factors should be considered. Here are these factors:
Biotech labs should choose shakers with small temp adjustments. When working with living cells, even a tiny change can mess up the experiment. Shakers that keep the heat exactly right ensure reliable results. Drug development also needs this precision to understand how things interact at different temps.
Rotary shakers get constant use, so pick one that lasts a long time. Choose tough materials like stainless steel that withstand temperature changes and water. The shaker size matters, too. Busy labs need bigger shakers that can hold many samples at once. Smaller models work best for niche experiments.
Using the shaker should be simple. Pick one with clear buttons and a simple screen to set the temp and shaking easily. Some newer models let users control them from a phone or computer. Simple controls help students or new staff operate it without mistakes.
Shakers work nonstop in research labs, so choose one that doesn't drain too much energy. Models that save power during off hours help cut electricity bills. This is great for environmentally-friendly research facilities.
A1: The shaker precisely heats and mixes samples by shaking them in water at set temperatures. This supports biological reactions needing stable heat and motion.
A2: Life sciences, pharmaceuticals, and research labs use them for cell studies, drug testing, and biochemical reactions. They aid various biological experiments in maintaining the right conditions.
A3: It uses sensors to constantly adjust water temperature. This keeps samples at exact heat levels for as long as needed by users for experiments.
A4: Yes, it is designed to speed up important research tasks by handling large amounts of liquid containers simultaneously. It functions like a climate-controlled shaker rack for many vials or flasks.
A5: They assist in testing many drug compounds quickly by providing ideal conditions for reactions. Researchers fastly find effective treatments by keeping everything stable and well-monitored during experiments.
