Publish Time: 2026-05-08 Origin: Site
A small blood sample can provide useful clinical information when it is prepared correctly. A hematocrit centrifuge is used to spin capillary blood tubes at high speed, separating red blood cells from plasma so users can read packed cell volume clearly. For clinics, hospitals, veterinary labs, teaching labs, and diagnostic buyers, Glanlab provides hematocrit and blood centrifuge options that support stable separation, practical operation, and reliable daily testing workflows.
A hematocrit centrifuge is designed for small capillary blood samples. During centrifugation, the heavier red blood cells move to one end of the capillary tube, while plasma remains at the other end. A thin buffy coat layer may appear between them.
This clear separation allows users to observe the blood layers and measure the red blood cell proportion more easily.
Hematocrit testing is also called packed cell volume testing. It shows how much of the blood sample is made up of red blood cells.
This value is useful in many clinical and veterinary testing situations. A hematocrit centrifuge helps prepare the sample quickly so the result can be read with a hematocrit reader or scale.
Hematocrit testing usually uses a small amount of blood and a short centrifugation cycle. This makes the equipment useful for routine testing, compact labs, veterinary clinics, and teaching demonstrations.
Compared with waiting for natural settling, centrifugation provides faster and clearer blood separation.
The process begins by loading blood into small capillary tubes. These tubes are much smaller than standard blood collection tubes, so they require a rotor designed specifically for capillary tube holding.
The sample volume is small, but the tube must be placed securely in the rotor before spinning.
Before centrifugation, one end of the capillary tube is sealed. This helps prevent leakage during high-speed rotation and keeps the sample contained.
Proper sealing is important for safety, cleanliness, and reliable testing.
After spinning, the blood sample separates into visible layers. The packed red blood cell layer forms at one end, plasma remains at the other end, and the buffy coat appears between them.
Clear layers make it easier to read the packed cell volume and reduce confusion during observation.
Once centrifugation is complete, the tube can be placed on a hematocrit reader or scale. The user compares the packed red cell layer with the total blood column.
The reading process is simple, but it depends on good sample preparation and stable centrifuge performance.
Many buyers use “hematocrit centrifuge” and “microhematocrit centrifuge” to describe similar equipment. Both terms often refer to a centrifuge used for capillary tube hematocrit testing.
The key point is not only the name, but whether the model fits the tube type, speed requirement, capacity, and reading workflow.
A suitable hematocrit centrifuge should hold capillary tubes firmly, provide stable high-speed operation, and include safe rotor cover design. Timer control and braking stability are also important for repeatable testing.
For buyers, these details are more useful than only comparing product names.
A blood centrifuge usually processes larger blood collection tubes for serum or plasma separation. A hematocrit centrifuge focuses on small capillary tubes and packed cell volume testing.
If the main work is serum or plasma preparation, a blood centrifuge may be more suitable. If the main work is hematocrit testing, a hematocrit centrifuge is the better choice.
Capacity means how many capillary tubes can be processed in one run. A small clinic may need only a basic model, while a busy lab may prefer a rotor with more tube positions.
Choosing the right capacity helps improve daily workflow.
Hematocrit testing usually requires high-speed, short-time centrifugation. Buyers should check both RPM and RCF because RCF shows the actual separation force applied to the sample.
Stable speed helps create clearer packed red cell layers.
Capillary tubes are small and fragile, so rotor safety is important. A secure rotor and cover help protect users and samples during high-speed operation.
Good rotor design also helps reduce tube movement during spinning.
A reliable timer supports repeatable testing. Braking should also be stable because sudden stopping may disturb the separated layers.
For routine hematocrit blood test work, consistent time and braking are practical daily-use features.
Buyer Need | What to Check | Why It Matters | Glanlab Direction |
Routine PCV testing | Capillary tube capacity | Supports daily sample volume | Hematocrit centrifuge |
Veterinary testing | Small sample handling | Useful for limited blood volume | Compact hematocrit model |
Teaching lab use | Easy operation | Supports demonstration and training | Simple control model |
Clinical testing | Stable RPM and RCF | Improves repeatability | Medical lab centrifuge |
Export purchase | Warranty and certificates | Reduces procurement risk | Glanlab support |
This table shows that hematocrit centrifuge selection should be based on testing volume, tube type, operation needs, and procurement requirements.
Glanlab supplies different centrifuge categories, including hematocrit centrifuges, blood centrifuges, clinical centrifuges, benchtop centrifuges, and other specialized models.
This helps buyers compare options according to their real testing purpose instead of choosing only by appearance or price.
Customers can provide capillary tube type, number of samples per run, required RPM or RCF, and daily testing volume. Glanlab can help match the centrifuge configuration to the workflow.
This is useful for clinics, veterinary labs, teaching laboratories, and distributors who need suitable models for different users.
Glanlab was established in 2001 and supplies centrifuges and related laboratory products to global customers. The factory has obtained ISO9001 and ISO13485 certifications, and products have passed CE and FSC certificates.
Glanlab also provides one-year warranty service with free repair parts, helping overseas buyers reduce after-sales concerns.
A hematocrit centrifuge is a focused tool for packed cell volume testing. It helps users separate blood in capillary tubes, read red blood cell proportion clearly, and support routine clinical, veterinary, and teaching workflows. The right model should be selected by capillary tube capacity, RPM or RCF, rotor safety, timer control, braking stability, and daily testing volume. Glanlab provides hematocrit and blood centrifuge options for buyers who need practical and reliable testing equipment. If you need help selecting a suitable capillary tube centrifuge, contact us with your tube type, sample volume, speed requirement, and workflow details.
A hematocrit centrifuge is used to spin capillary blood tubes so users can measure packed cell volume after the blood separates into visible layers.
The two terms often overlap. Both usually refer to centrifuges used for capillary tube hematocrit testing, but buyers should still check rotor capacity, speed, and tube compatibility.
Not always. A blood centrifuge is usually for larger blood tubes and serum or plasma separation, while a hematocrit centrifuge is designed for capillary tube packed cell volume testing.
You should provide capillary tube size, number of tubes per run, required RPM or RCF, testing volume, voltage requirement, and application details.