Products Description
Vial transport tungsten shield container is a radiation protection device intended for the transport of radioactive isotopes. It is manufactured from tungsten alloy with a high density and possesses exceptional radiation shielding performance. Its primary purpose is to afford physical separation of radioactive vials to ensure there is no radiation leakage during transport and at the same time comply with the standards for transport of radioactive materials within the medical, industrial, and scientific research domains.
The container's main body is made out of tungsten alloy in order to safely protect the transport environment against ionizing radiation such as gamma and X-rays, as well as the environment within the container itself-using high-density features which absorb and attenuate these types of radiation-ensuring safety of the transport environment; on top of the container are locked and fixed joints which, in combination with the O-ring seal, create a double protective barrier against leaking radiations due to vibrations and external forces; the built in handle allows for single handed operation which balances protection efficiency with portability, as it can be short or long distance transported to and from labs, hospitals, and industrial settings.
The tungsten shield container offers "full enclosed protection" while "convenient transportation", significantly mitigating radiation exposure risks during the transportation of radioactive materials. Its bayonet locking and O-ring sealing system guarantees no leakage during transportation, with the integrated handle enhancing operational safety and flexibility in addition to the operator's safety and ease. The container can offer effective radiation protection support irrespective of whether it is the isotope distribution in medical institutions or radiation source custody in industrial applications.
Features of Tungsten shield container for vial transport
1. Efficient and high density shielding:
A tungsten alloy is approximately 60% denser than lead and provides more efficient radiation shielding. Advanced tungsten alloys possess better gamma and X-ray radiation shielding efficiency compared to conventional materials, all within a compact size.
2. Environmental Safety:
Tungsten alloy does not emit toxic substances and is environmentally safe and poses no danger to human health. Unlike lead, no harmful emissions are associated with the use of tungsten alloy shielding.
3. Long lifespan:
Tungsten alloy exhibits significant protective strength and rigidity, maintains good ductility, and high tensile strength, enabling him to bear considerable mechanical impacts. Prolonged service life with strong corrosion resistance.
4. Ease in redesign and operation:
Magnetic locks or fixed joint sealing devices effectively guarantee hermetic container closure. Top of the container can be fitted with conical holes or observation windows, enabling effortless internal inspection and operational condition monitoring.
5. Adaptable Designs:
According to customer specifications, the shielding thickness can be varied, with standard values of 4, 6, and 20 millimeters. Disable containers of different sizes and shapes can be designed tailored for particular specified purposes.
Applications of Tungsten shield container for vial transport
The tungsten shield container usually is used to transport and store radioisotope vials such as FDG, iodine-131, etc. Used to store and transport radioactive sources to ensure the safe operation of nuclear facilities. Used for storage and transportation of radioisotopes in laboratories.
Shielding Material specification
|
Name |
90WNiFe |
92.5WNiFe |
95WNiFe |
97WNiFe |
90WNiCu |
95WNiCu |
|
Material |
90% W |
92.5% W |
95% W |
97% W |
90% W |
95% W |
|
7% Ni |
5.25% Ni |
3.5% Ni |
2.1% Ni |
6% Ni |
3.5% Ni |
|
|
3% Fe |
2.25% Fe |
1.5% Fe |
0.9% Fe |
4% Cu |
1.5% Cu |
|
|
Density (g/cc) |
17 gm/cc |
17.5 gm/cc |
18 gm/cc |
18.5 gm/cc |
17 gm/cc |
18 gm/cc |
|
Density (lbs/in3) |
0.614 |
0.632 |
0.65 |
0.668 |
0.614 |
0.65 |
Specification of Tungsten shield container for vial transport
|
Material |
WNiFe alloy |
|
Shield Thickness |
Tungsten(2-2.5mm) |
|
Vial 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 |
|
External dimensions |
diameter 93mm x height130mm |
|
Tungsten Shielding thickness |
29.5mm |
|
Construction: |
Full tungsten the outside and inside. |
|
Weight: |
14kgs |
|
Pit dimesions |
Diameter 33mm x height 57mm |
|
Viewing window |
Lead glass 5.2 density |
|
Lead Glass Window |
1.5-3mmPb |
|
Delivery time |
20 days |
Precautions for tungsten shield container for vial transport
1. Packaging and sealing
Integrity: Confirm the preservation of the container seal; check that the load is secured and stable. Tungsten shield containers normally have their tops secured by a fixed joint and have O-rings to guarantee leak proof sealing.
Check for leaks: Conduct a check on the container for signs of leakage, damage, looseness, and the sealing condition before the container is moved to the transportation phase.
2. Safety during transportation
Avoid mechanical impact: The tungsten shield containers made from tungsten alloys have a very high mechanical strength. However, they should not be subjected to harsh jarring or shaking due to transportation hurdles. Precautions should be taken to minimize impact damage to the container during transport.
Fixation and support: The arrangement of containers in vehicles must take into consideration the secure locking of the container in order to mitigate sliding or rolling during movement.
3. Operating standards
Professional training: Operators must be instructed on the safe use of tungsten shield containers through professional radiation protection training.
Emergency measures: One should be knowledgeable about responding to an emergency situation so appropriate actions can be taken promptly in case of a leak or other incidents.
4. Storage conditions
Isolation storage: Tungsten shield containers should be stored in an isolation storage to prevent mixing with other non radioactive materials.
Regular inspection: Inspect the container's shielding performance and physical condition routinely to guarantee operational readiness.
FAQ for Tungsten shield container for vial transport
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 Tungsten shield container for vial transport?
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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