Products Description
Tungsten alloy x-ray shielding is one of the key protective devices in medical imaging and radiation therapy. It is primarily applied in multi-lobe collimators and other similar devices. Tungsten x-ray collimators construction protective radiation X-ray collimators adjust the radiation beam geometry which restricts the area of the patient's body to be irradiated. Medical staff are protected from being exposed to radiation damage while using fluoroscopy. Its main purpose is to serve as a high-density shield to limit the radiation beam to designated areas for treatment or imaging objectives while effectively blocking off any scattered radiation to ensure safety and accuracy during diagnosis and treatment.
A tungsten alloy x-ray shielding component is, by its name, a tungsten alloy which has the ability to shield x-ray radiation. Unlike the lead components, the radiation shielding properties of tungsten alloy components is far superior. Studies suggest that the X-ray and gamma-ray shielding capabilities of tungsten alloy shielding components surpass those of lead components at equal thicknesses.
The unique characteristics of tungsten alloys, with their high atomic number and high density, make them ideal materials for x-ray and gamma ray shielding. In medical devices, tungsten alloy shields are typically placed in front of the radiation source, and an accurately designed geometry (for example, a blade array or an aperture adjustment mechanism) directs the radiation beam to the target area: a lesion or an imaging site. This step not only spares the surrounding healthy tissues from radiation, but also minimizes the scattered radiation's adverse effects on imaging quality when the radiation is off. Also, tungsten alloys are non-toxic where lead is poisonous.
Furthermore, tungsten alloys possess non-lethal strength's such as immense hardness, high strength, and corrosion resistance, which makes it outperform lead in shielding applications It becomes increasingly clear why, in numerous medical applications, lead is being supplanted as the traditional shielding material by tungsten alloys; for instance, a tungsten alloy multi-leaf collimator on medical linear accelerators and a tungsten metal collimator on radiation therapy machines. The tungsten alloy X-ray shielding part can be made by pressing metal powder followed by liquid phase sintering. Among them, the density of the tungsten alloy depends on the value of the sintering curve, and the alloy's yield strength can avoid severe deformation with large internal defects.
Tungsten alloy X-ray shields constitute an integral component of contemporary systems for medical imaging and treatment. They guarantee the safety and accuracy of the procedures through the "precision shielding" and "radiation beam shaping" and further enhance the efficacy of the diagnosis and treatment, thus supporting the execution of individual medical plans.
Features of Tungsten Alloy X Ray Shielding Part
1. Exceptional Density and Effective Shielding Performance
Tungsten alloys have the highest density of all materials. Its density is between 16.5 to 19.0 g/cm³ which is even higher than tungsten's (which is 11.34 g/cm³). Tungsten alloys having a higher density permits strong shielding of x-rays and gamma rays.
For instance, an alloy tungsten shield 8mm thick can provide the shielding effect of 10mm of lead and, therefore, greatly diminish the intensity of x-rays.
2. Non-toxic and Eco-Friendly
Because tungsten alloys are non-toxic, they do not contaminate the human body or the environment, so, they are more in line with modern eco-friendly requirements. Meanwhile, lead based products are hazardous and toxic and can be dangerous for the environment and public health after some time.
3. Extreme Durability
Tungsten alloys have a high resistance to mechanical stresses which enables it to endure normal, frequent, transport, handling, and bulk use without getting damaged by bending, changing shape, or suffering material deformation.
Also, tungsten alloys is austenitic and feldspathic compounds are known to have stronger resistance to corrosion and aggressive chemicals like acidic and alkaline, thus, it can be employed in many extreme hostile environments.
4. Small dimensions and light mass
In achieving a protective effect, tungsten alloy shielding parts only have to be of a fraction of the volume and weight compared to lead. This increases convenience during transport and usage especially in tight spaces where every inch of space is at a premium.
5. Easy to Work with
Tungsten alloy can be machined into different shapes and sizes, and so sutable tungsten alloy shielding parts can be fabricated to suit different application environments as it is highly processable. This adds to the convenience of working with tungsten alloy.
6. High heat resistance
Tungsten alloy is one of the most thermally stable alloys since its melting point is over 3000 °C. This means it can reach incredibly hot temperatures while preserving its exceptional protective performance so that it can be relied upon for high temperature operation applications.
Applications of Tungsten Alloy X Ray Shielding Part
Used to protect healthcare workers and patients from radiation damage from X-rays. For example, the protective cover of an X-ray machine, the protective door of a CT scanner, etc.
In interventional radiology, it is used to protect the safety of medical staff when performing angiography, tumor interventional treatment and other operations.
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 Alloy X Ray Shielding Part
|
Material |
WNiFe alloy |
|
Shield Thickness |
customized |
|
Volume |
10cc,20cc |
|
Density |
17.0g/cm3-18.5g/cm3 |
|
Size |
customized |
|
Lead Glass Window |
1.5-3mmPb |
|
Delivery time |
About 20 days |
|
Standard |
ASTM,GB |
FAQ for Tungsten Alloy X Ray Shielding Part
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 Alloy X Ray Shielding Part?
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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