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Benchtop Centrifuges

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Spinning Science With VEVOR's Centrifuge Unraveling The Mysteries

Science continues to push the boundaries of knowledge. Using different tools, various scientific disciplines continue to grow, advancing innovative frontiers. The centrifuge is a significant tool among them.


Centrifugation, at its core, is a technique that employs the principles of centrifugal force to separate substances of different densities within a liquid medium. Various scientific fields, including biology, chemistry, medicine, and environmental science, employ the process.


Whether for isolating cellular components, purifying biomolecules, or conducting crucial medical diagnostics, centrifugation is a scientific cornerstone. Therefore, VEVOR takes a more critical look into sciences with our high-quality centrifuges.


How Does A Centrifuge Work?

A centrifuge uses the centrifugal force to separate a mixture component based on density. To understand the basic principle of how a centrifuge works, it is important to know its various components first.


The rotor is a major component of the centrifuge. It is a circular disk or drum that accommodates tubes or containers that separate the substances. It can spin rapidly during the centrifugal operation. The motor provides the power to drive the rotor’s rotation.


Generating power by rapidly rotating the rotor, it creates gravitational effects that push the particle outward from the center. Centrifuges also have control systems that manage the overall operation of the centrifuge. The system enables the operator to give commands to the centrifuge and direct its operation.


The centrifuge operation starts with the sample loading. The operator loads the sample into the tubes within the rotor. They then go ahead to activate the centrifuge, starting the rotor’s spinning. The centrifugal force separates the samples, moving the denser particles outward while leaving the lighter ones inside.


The centrifuge decelerates, and the rotor comes to an end when this process finishes. You can carefully collect the separated components as the denser particles are collected at the tube’s bottom.


Different Materials They Manufacture Centrifuges From

Manufacturers make centrifuges from different materials. These materials all have various features and are chosen for their specific properties. From affordability to durability and compatibility, specific needs can determine the material choice.


Stainless Steel And Aluminium

Stainless steel is a popular material for making centrifuges because of its durability and corrosion resistance. It is a preferred choice for centrifuges used in chemical and biological laboratories.


Aluminum is a great choice for making centrifuge rotors because it is lightweight and has great heat conductivity. Rotors made from aluminum are popular in molecular biology and biochemistry applications.

Plastics And Rubbers

Manufacturers use plastic to construct centrifuge components like rotor buckets and tube holders. Polycarbonate and polypropylene are preferred choices, as they are chemical and impact-resistant.


Rubber or elastomeric materials are also used for gaskets, seals, and other parts that require flexibility and resistance to chemical exposure. They ensure airtight seals and prevent leakages.


Carbon Fiber

Carbon fiber is an excellent choice for high-performance carbon centrifuge rotors due to its strength, low weight, and fatigue resistance.


Centrifuges In Pop Culture And Science Fiction

The impact of centrifuges resonates beyond laboratories and scientific fields. Pop culture and science fiction regularly show them not only as props but also depict them as symbols of scientific progress and exploration.


The Andromeda Strain (1971)

The presence of centrifuges in movies dates as far back as the 70s. Based on Michael Crichton's novel, "The Andromeda Strain" is a film about a group of scientists working in a high-tech underground lab. The facility has advanced scientific equipment, including a centrifuge, for studying an extraterrestrial microorganism.


Video Games - "BioShock" Series (2007-2013)

Apart from movies, video games like Bioshock contain elements of science fiction and alternate history. Players will encounter laboratories with advanced technology, including centrifuges, in Rapture, an underwater metropolis.


Sci-Fi Literature

Many sci-fi literature feature centrifuges, positioning them as essential tools for scientific research and discovery. Centrifuges make their appearances known in stories set in space colonies, distant planets, and advanced laboratories.


Why Choose VEVOR?

VEVOR centrifuges have significantly contributed to biochemistry and molecular biology, clinical diagnostics, pharmaceuticals and drug development, food and beverage industries, etc.  They are designed to provide exceptional performance, allowing scientists to achieve remarkable separation and analytical precision. Promoting ground-breaking advances in scientific processes.


They merge precision engineering and cutting-edge innovation. VEVOR centrifuges allow researchers to adjust their experiments to individual requirements, delivering optimal results in various scientific applications.


Furthermore, VEVOR's dedication to environmental sustainability shows in our centrifuge designs. They promote energy efficiency and low environmental effects. As the world grapples with the difficulties posed by climate change, VEVOR's environmentally sensitive approach resonates with the overarching goal of fostering more sustainable and ethical scientific activity.


FAQs About Centrifuges

Are there centrifuges for mobile applications?

Yes, there are portable centrifuges that are designed for fieldwork or mobile applications. They are smaller and lightweight, making it easier to transport them. Most are also rechargeable or battery-powered, encouraging usage even in places without adequate power supply.


Can I use a centrifuge for hazardous materials?

Yes, there are different types and characteristics of centrifuges. Manufacturers make some centrifuges to accommodate hazardous materials. These centrifuges are made from high-quality materials, enabling them to be reliable. They also have safety features like the sealed rotor and containment cups.


How does a microfuge differ from a refrigerated centrifuge?

The difference between a microfuge and a centrifuge lies in the capacity. A microfuge works with smaller samples, typically in the range of 0.2 to 2.0 milliliters, while a refrigerated centrifuge has temperature control capabilities, allowing it to maintain lower temperatures during centrifugation to preserve sensitive samples.

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