Products Description
Tungsten alloy has become the core material for radioactive operation protection in the medical field due to its high density (≥17g/cm³) and excellent radiation attenuation performance. The applications of tungsten alloy medical shielding in PET technology include: PET syringe shielding and technetium generator. The shield is specially designed to be mounted on the syringe to provide a barrier between the radioactive material and the operator. It is often easy to operate and manipulate, allowing medical staff to safely administer radiotracers while minimizing their radiation exposure. The use of a tungsten alloy PET syringe shield is a basic safety measure in the PET imaging procedure to ensure the health of patients and medical staff by reducing the risk of radiation exposure. In positron emission tomography (PET) technology, safety guarantees are provided for the entire process of preparation, transportation and injection of radioactive drugs.
Tungsten alloy medical shielding equipment has become an indispensable radiation protection solution in PET technology. It not only provides medical staff with "invisible protective clothing", but also indirectly promotes the wide application of PET imaging technology in the fields of early tumor screening and neurological disease diagnosis by improving operational accuracy and efficiency. With the further integration of 3D printing tungsten alloy process and intelligent sensing technology, tungsten alloy medical shielding will be upgraded to personalized customization and active protection in the future, laying a solid safety foundation for the high-quality development of nuclear medicine.
Features of SPET Syringe Shield
1. Maximally Efficient Protective Radiation Shielding: Tungsten alloy materials are usually chosen for this purpose due to their high density and strong shielding capability to radionuclides like Tc-99m and FDG F-18. For example, a 0.34inch thick tungsten material will reduce the radiation intensity emitted by FDG F-18 by 88%.
2. Flexible design: Windows made of lead glass are optional but the provisions for viewing spaces using high density lead glass windows are flexible. Windows constructed of lead glass 11-13 mm thick will provide 3-4 mm lead equivalent shielding. Thus, the operator's view is unobstructed while protective shielding is enhanced.
3. Ease of Operation: Epoxy or screw locks, spring clips, or flange locks are some of the locking devices that can be manipulated using one hand. The device can hold onto the syringe and free it rapidly, thus shortening the duration of contact that healthcare workers would have with radioactive materials.
4. Long Lasting, Simple Maintenance: Frequent disinfection with alcohol wipes is possible due to the smooth surface polishing, oxidation, and plating processes that were done to the surface giving it corrosion and soil resistant properties.
5. Green and Non-Toxic: Using materials such as Tungsten alloy instead of traditional lead contributes to the eco-friendliness of the devices, thus meeting the environmental policies requirements of contemporary health care.
6. Strong adaptation: Different medical situations can be satisfied by adapting to various standard capacity medical syringes (like 1cc, 3cc, 5cc, 10cc, etc.) as they have different capacities.

Applications of SPET Syringe Shield
While performing procedures like F18 FDG PET/CT scans or Tc-99m SPECT imaging, medical personnel can protect themselves from radiation harm through SPET syringe shields during the injection of radioactive medicines. In nuclear medicine labs, SPET syringe shields aid in minimizing radiation dose for medical staff that are preparing and dispensing the radioactive medicines. From the preparation area to the injection location, the SPET syringe cap prevents the transport personnel and the environment from being exposed to contamination. During their instructional and clinical practicum sessions on nuclear medicine, SPET syringe shields enable simulation of injection of radioactive drugs so that learners perform such procedures safely.
Specification of SPET Syringe Shield
|
Material |
WNiFe |
|
Shield Thickness |
Tungsten(2-2.5mm) |
|
Volume |
1cc,3cc,5cc,10cc,20cc |
|
Density |
17.0g/cm3-18.5g/cm3 |
|
Size |
Customized |
|
Finishing material |
Silver polish surface |
|
Shielding material |
Tungsten and alloy |
|
Shielding thickness |
8 mm or 9mm |
|
Viewing window |
Lead glass 5.2 density |
|
Lead Glass Window |
1.5-3mmPb |
|
Delivery time |
20 days |
FAQ for SPET Syringe Shield
Are you a factory or manufacturer?
A: Yes, we are a factory but we generally use our trading company to handle the business abroad. It will be more convenient to receive the remittance and arrange the shipment.
What is the delivery method?
A: Generally, we send cargo by UPS, DHL or FedEx. Also, we can send by sea to seaport or by air to the closest airport.
Why is your product so cost-effective?
A: We cut out the middlemen in the end-to-end manufacturing process and we obtain raw material directly from its source.
Do you do spot quality inspection or full inspection?
A: 100% full inspection for sure. All unqualified products are discarded.
How do you ensure your lead time?
A: From material preparation to machining and finally to a full inspection. Every stage of production is strictly monitored and controlled to give you an accurate delivery time.
What is the MOQ of SPET Syringe Shield?
A: Depends on quantity, generally, no MOQ limit.
How to pay for it?
A: A bank transfer (T/T) will be acceptable.
What is the delivery time?
A: around 7-20 days which depends on the quantity and production.
What is kind of the package?
A: Generally, we use a carton case or plywood case with protective material inside to ensure the save of cargo
What is the lead time?
A: from order placed to cargo receiving will take around 10-25 days.
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