Tuesday, August 30, 2022

How Are Stainless Steel Laboratory Tables Useful For You?

 Stainless steel laboratory tables are a common piece of furniture in the lab and have many great uses for the lab and the individual. In addition, stainless steel is a great material to work with because it is easy to clean, can withstand high heat levels and is often cheaper than other materials.

They also provide an important surface for experiments where you want them to remain stationary under certain conditions; this stability makes them perfect for conducting procedures involving hazardous materials or incompatible chemicals. Here are different ways in which these tables are used in laboratories:

1.      To Contain Hazardous Materials.

Some materials, such as mercury, are very dangerous to use in the lab, but they are needed to create certain special chemicals. By pouring these substances into a stainless steel beaker or container, they can be kept confined safely while they are being worked on. With a well furnished table, you can avoid any kind accidents from happening and get better handling of equipments as well.

2.      Perfect Platform For Experimentation

These Stainless Steel Laboratory Tables can also be used as a surface for other kinds of experiments where there is no danger of spillage. For example, a stainless steel table would be the best choice if you are experimenting with chemicals and items that are prone to fall or spill. In case of spill, you will not have any potential shock hazards as steel can be easily cleaned.

3.      Glassware Placement

Flasks and other glassware are often placed on top of a stainless steel table to be used as a work surface. This is the case with chemists in the lab, who place flasks and beakers on tables to do experiments and biologists who want to keep biological specimens contained while they are working with them. Because they provide an easy-to-clean surface resistant to heat and other types of damage, they allow for more than one type of work to be done at once.

They are also excellent surfaces if you plan on doing any work that requires handling different apparatus from your lab. Since these workbenches are made from stainless steel, they last longer and are completely to pay for. If you want to learn about Stainless Steel Laboratory Tables, click here to Global Lab Supply.



Monday, August 29, 2022

What Is A Benchtop Shaking Incubator & How Does It Works?

 A benchtop shaking incubator is designed to help research based on hybridization, cultivation, biochemical reaction, fermentation, tissue and bacteria research, etc. The machine consists of an incubator mounted on a shaker stand with three or four air cylinders and shock absorbers. Shaking incubators are orbital, orbital shaker, rotary, or oscillating shaker incubators.

Working on a Benchtop Shaking Incubator

The incubator is kept in a stand and the machine revolves at a speed of 250 to 700 rpm. The rotating action of the shaker and the motors attached to it cause the liquid in the in-travel fluid chamber to vibrate, thereby producing an electrical field. The electrical field increases or decreases depending on whether the output liquid is positive or negative. As a result, a small amount of transfer of current generates heat in the liquid. This heat generates additional vibration that ultimately helps in increasing plant growth.

What Are Their Applications?                           

A Benchtop Shaking Incubator is mainly used for microscopy research, tissue culture, bacteriology, industrial fermentations, and more. They are also used in schools for teaching microbiology and cell research. Benchtop shakers have a sealed chamber fitted with shelves on which you can insert your test tubes and bottles into the machine. The machine then shakes at high speeds, making it work like an orbital shaking incubator.

Proper use of a Benchtop Shaking Incubator

The machine is not just any other regular machine; it must be handled with great care. The user should read the manual carefully before using the device to avoid any kind of mishap. A user must also ensure that his hands are dry while running the shaker to avoid short circuits. It is also recommended that you should wear safety glasses while using the machine.

A Benchtop Shaking Incubator is extremely useful for research based experiments, especially in microbiology labs. However, it must be handled with great care as it has many uses, but one mistake can lead to a serious accident.

If you spill anything on the surface, immediately unplug the device from the power source, clean it up with a moist cloth, and then plug it again. Most incubators are made from stainless steel or fiber-glass, making them tough, unbreakable and easy to maintain. If you want to learn about Benchtop Shaking Incubator.



Vacuum Desiccators And Their Increasing Demands In Laboratories

 In the course of daily news, there is often talk about the demand for laboratory space and equipment. As with most industries, new technology comes to the lab in many forms: robots helping researchers do experiments faster and more efficiently, lab equipment becoming smaller, less expensive, and more advanced.

Vacuum desiccators are special containers that hold moisture away from humidity-sensitive samples through a powerful vacuum pump inside them. Here's why the demand for these vacuum desiccators is increasing day by day among scientists and other technicians:

They Help Researchers Collect Samples          

Samples are the most important elements of a researcher's work. However, samples can be very fragile and sensitive, especially fragile ones like certain biological materials or highly reactive chemical compounds. Therefore a Vacuum Desiccator is used to ensure safe handling and storage of these samples to perform tasks precisely. One way to protect samples from harm is by bringing them into a laboratory with airtight vented containers.

Provide Better Results and Work Efficiency

One of the most important tasks for researchers is to stay focused on the work they're doing. Research can take months or even years before one small discovery is made. As it takes a lot of concentration, being distracted can be very stressful and disappointing to researchers. Vacuum desiccators are created by Global Lab Supply in such a way that keeps things out of labs, including dust, airborne pollutants and other impurities.

Saves Space and Money

Traditional vented containers need to be opened, which releases air and moisture inside them. Then, the released air needs to be pumped out of the container, often with a loud noise that disturbs the working environment in the lab. On top of that, the researcher must keep checking the vented container, ensuring it isn't over- or under-pressurized. Vacuum desiccators take this away with their powerful vacuum pumps and nitrogen gas injections into airtight environments with no noise.

In a nutshell, vacuum desiccators find many uses across a laboratory, and hence they are available in different sizes. You can buy one for your lab online by sorting out the size, feature, and price you want in your desiccator.


 

Different Ways In Which Vacuum Glove Box Are Used In Labs

Vacuum glove boxes are used in laboratories for various purposes, such as to contain certain substances and help in experiments requiring specific temperature levels. The glove box creates a vacuum that keeps the air pressure inside it lower than outside the glove box. This vacuum ensures no molecules seep through the glassware.

In addition, it allows for precise control over humidity, temperature, and pressure inside and outside the chamber. The best part, these glove boxes allow you to operate on even toxic materials without making any direct contact. Some of the most common cases in which you will need vacuum glove boxes are shared here:

·         Create Certain Pressure Levels:

Sometimes, you might need a certain pressure level within the chamber for experiments. In such a case, if you simply put the material inside a normal chamber, it might change the pressure level. For this purpose, Vacuum Glove Box is used as it creates a certain desired pressure level in the vacuum. You can adjust these variables per the requirements of the materials you are handling in your lab.

·         Protect Chemicals and Solutions:

Using vacuum glove boxes, you can easily protect certain substances from chemicals and other substances that may react with them. For example, suppose corrosive chemicals need to be stored at low temperatures and other chemicals with different properties. In that case, you should Choose Global Lab Supply vacuum glove boxes to keep them together to work on highly reactive and toxic substance. 

·         Ensure Precise Temperature Levels:

It is important to control the temperature within a certain range while conducting experiments. Since this is not possible when you use only glassware, you can use vacuum glove boxes to ensure that the required temperature is maintained inside the chamber and outside of it as well. It will allow you to monitor the exact temperature in real-time so that you can adjust if needed.

The main reason vacuum gloves are used in laboratories is that they keep air pressure and air level lower than outside the chamber. It helps maintain a stable reaction rate and avoids drastic changes in the results.


 

Sunday, August 28, 2022

Must-Have Features For A Laboratory Work Table

 Every lab worker knows that a good work table can make all the difference in their work. After working on projects for hours, a solid surface to rest your tools and experiment materials is just what you need. You also want something that will help your experiments go smoothly and provide the perfect environment for all of your experiments. Here are must-have features for your lab work table. If you are getting a new work table for your lab, then consider these features a must for them:

Clean and Stable Surface              

A solid surface can be very important if you are trying experiments involving liquids or gases that might spill or cause other messes. You don't want to be trying to do delicate experiments and maneuvering your materials around an unstable surface. Ensure that the Laboratory Work Tables you are getting comes with a smooth finish to reduce scratches on delicate equipment and materials.

Built-in Lighting

Many tables have lighting built into them. If yours does not, you will at least want to put in a lamp so you can see what you are working with. Make sure the work table has a plug and is positioned near an outlet so it is easy to access. You want your table to be practical and safe, so take care not to set up the lights in a way that could cause a fire or be unsafe if the light were knocked over.

Organization 

Make sure that your work table has plenty of room for all of your equipment, notes, and materials while leaving some space to move around and do your experiments without knocking things over or getting in the way. Many work tables have a drawer or some type of built-in compartment where you can keep everything organized. This is great for keeping your supplies clean and easily accessible.

A Global Lab Supply work table will also help ensure that your experiments run smoothly and that you don't waste valuable time cleaning up a messy work area after each session.  Some worktables come with special storage compartments for different items and make everything organized in your workspace. 





Friday, August 26, 2022

Forced Convection Oven For Laboratories: Its Structure And Application

 Forced convection ovens are used in laboratories to study the effect of heat on different materials. These ovens are designed to create an environment that closely approximates the conditions found at sea level. As a result, they are often used in research and development laboratories, engineering facilities, and cleanrooms. Here, you will find some basic information about what forced convection ovens are made of and what they do, as well as how they can be applied in a laboratory setting.

Structure of Forced Convection Oven

A Forced Convection Oven consists of a chamber or box with a door. The chamber has a fan and blower attached to it that blows fresh air into the chamber. The cooled air rises in the chamber and is pulled through ducts to remove the heat from the material.

This makes for more efficient use of equipment because less energy is required to achieve higher temperatures. In addition, the heated gases rise and fall within the box, which helps prevent uneven heating on large pieces of material.

What do They do?                                                      

The purpose of a forced convection oven is to provide a way to heat materials up and then maintain that heat for an extended period. This is important because it provides a more stable environment for laboratory research and the accurate measurement of temperature changes.

In addition, this type of oven can be used in areas where extreme heat or cold are present because they are designed to measure and monitor temperatures that would be dangerous to humans.

Convection Ovens in LAB

Due to their size, capacity, accuracy, and reliability, forced convection ovens are often used in laboratories as part of scientific experiments because they can provide an even source of high temperatures.

Additionally, forced convection ovens can be used in the food and pharmaceutical industries for more accurate temperature control. These ovens are designed to handle different materials requiring different treatments, such as glycol-based solutions for intravenous fluids.

A forced convection oven consists of various features that allow it to meet the needs of various applications. Therefore, you will get better work efficiency with the help of these advanced Global Lab Supply convection ovens in your laboratory. 



Thursday, August 25, 2022

An Introduction To Different Components Of Laboratory Drying Oven

Most drying ovens consist of a standard turntable with a rack that rotates over the heating surface. The heated air is forced through the process and out of an air outlet located at the top. An upper heat source, typically in the form of tubes, can also be seen on top of most ovens. A drying oven's primary function is to dry powders or other objects using high temperature and relative humidity. There are different parts behind the working of a drying oven, and some of these parts are detailed here:

ü  The Front Panel

The front panel provides access to the drying oven's key controls. These include control of the heating element, blower speed, and temperature selector. The front panel also has an airflow indicator, which shows the airflow going into and out of the oven chamber. Basically, front panel is the segment where you get controls and all other visible options.

ü  Chamber or Oven

The drying chamber is where most of the dryer's work occurs in a Laboratory Drying Oven. Depending on size and purpose, it can be open to the user or closed off in a cabinet. In most cases, it is simply a space with an electrical heating element surrounded by racks on which trays are placed to hold samples.

ü  The Vasal Manifold

The vase manifold is located at the top of most drying ovens and serves as a heat-transfer chamber for heat from the heating element to flow through the racks on which sample trays are placed. It can be designed in many different ways and follows different principles of operation, depending on its design, size, and use.

ü  Exhaust Hood

Exits through which air can flow out of the oven are known as exhaust hoods. Their design and size vary greatly depending on their purpose, but they are almost always located above the heating element to collect any released gases.

The heating chamber provides a seal to the heating element and allows the exhaust gases from the oven to be exhausted. Therefore, the quality of products produced by this procedure varies considerably from oven to oven. If you want to learn about Laboratory Drying Oven, click here to Global Lab Supply.