As per Inkwood Research, the global X-ray tube market is expected to reach $4355.74 million by 2032, growing at a CAGR of 4.77% during the forecast period 2024-2032. X-ray tube, also known as a Roentgen tube, functions as a specific energy converter that receives electrical energy and converts it into heat (99%) and x-radiation (1%).
The primary function of an X-ray tube is to create X-ray
photons from electric energy transmitted by the X-ray generator. In healthcare,
X-rays are extensively utilized for diagnostic imaging, enabling physicians to
examine internal structures non-invasively. From routine chest X-rays to
advanced CT scans, X-ray technology is essential in identifying and monitoring
a wide range of medical conditions.
Further, their widespread usage across applications, like
material and structure analysis, X-ray crystallography, airport luggage
scanners, and others, play an essential role in surging the demand and adoption
of X-ray tubes worldwide.
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X-Ray – An Incredible Contribution to Human Health
The discovery of the X-ray in 1895 provided
physicians with an effective, non-surgical tool to analyze the inside of the
human body. Moreover, following the development of the ‘Coolidge tube’ in 1913,
which continues to remain the model that present-day X-ray tubes are patterned
after, the scientific and medical usage of X-rays spread rapidly across Europe and the United States.
Accordingly, some of the top applications of X-ray
tubes, predominantly in the field of medicine, include the following –
- Surgical
therapy
- Dental applications
- Treatment
of bone fractures
- Identifying
injuries or abnormal masses
- Detection
of internal diseases and various cancers
In the present scenario, the rising expenditure on cancer
treatments is set to play an integral role in driving the adoption of X-ray
tubes and machines. While cancer diagnostics require X-ray tubes for detection,
a crucial application of X-ray tubes entails radiation therapy, which utilizes
beams of intense energy for the elimination of cancer cells.
Besides, as per the estimations by the International
Agency for Research on Cancer (IARC), globally, 1 in 5 people
develop cancer during their lifetime, and 1 in 11 women,
as well as 1 in 8 men, die from the
condition.
As a result, a significant increase in medical conditions
necessitating the use of X-ray technology for diagnostic purposes is
anticipated to raise the demand for X-ray tubes, thus contributing to the
notable growth of the global X-ray tube market.
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X-Ray Tube Market – Key Applications Transcending the
Field of Medicine
Although X-ray tubes are mainly used in the healthcare
industry, some of their leading applications extend beyond the field of
medicine, as well. For example –
- Manufacturing –
Production environments in the manufacturing industry require high levels
of efficiency as well as integration into different manufacturing
management systems. In this regard, X-ray tubes are graded as simple power
supply technology, with imaging technologies at the forefront, in order to
assure improved efficacy and throughput. In addition, the need for quality
control in the manufacturing industry across production lines further
fuels the adoption of X-ray equipment, primarily for the purpose of detecting
internal cracks. Accordingly, these factors also play an essential role in
positioning manufacturing as the dominating end-user over the
forecast period, 2024 to 2032.
- Aerospace
& Defence – X-ray tubes are mainly utilized in the
non-destructive testing (NDT) process of various military equipment in the
aerospace & defense sector. In this regard, for non-destructive
testing, computed tomography (CT) systems are designed to
meet the most critical aerospace and defense standards, which ensure the
safe and reliable inspection of aircraft parts and manufactured materials.
As production and testing continue to witness higher levels of automation,
the need for NDT and quality assurance is expected to propel the demand
for X-ray tubes over the upcoming years.
- Food
& Beverage – The food & beverage industry is emerging as a
lucrative application for X-ray tubes on account of the rising need for
product quality checks. Moreover, food manufacturers are increasingly
relying on product inspection equipment in order to minimize the risk of
expensive product recalls, detect foreign objects, safeguard brand
reputations, and comply with safety regulations as well as retailer
guidelines. For example, Varian Medical System’s X-ray
tube features an air-cooled stationary anode metal ceramic design
occupying an extensive line of industrial X-ray tubes. The device fulfills
the purposes of non-destructive imaging, food inspection, thickness
gauging, and security applications.
- Security
& Screening – Courthouses, airports, businesses, and prisons
utilize X-ray screen systems in order to detect objects such as explosives, concealed
weapons, and other contraband for security reasons. For instance, X-ray
tubes are the major components for the generation of X-rays in the
full-body scanners used in airports in the United States. Moreover, the
technology also provides safety personnel with detailed images while
eliminating the need for manual physical inspections.
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Scanning the Optimistic Future of Radiology | Portable
& 3D Color X-Rays
Since the initial discovery of X-ray tubes, notable
developments have been undertaken to meet various requirements, such as
multiple repetitive exposures, enhanced tube life, and the capacity to accept
heavy loads. In this regard, the development of low-energy X-ray systems has
considerably increased their application in numerous areas, including baggage
and personal scanners for object detection.
Similarly, one of the most recent developments in the field
of X-ray tubes is the introduction of portable X-rays. Portable X-rays,
including home X-rays, help patients avoid potentially hazardous trips to the
hospital.
Furthermore, the growing trend toward smaller as well as
more densely populated electronics components, coupled with the emergence of
micro-optoelectromechanical systems (MOEMS) and micro-electromechanical systems
(MEMS), have resulted in the development of nanofocusing X-ray technology, as
well.
With the first 3D color X-rays of the human body created in the
year 2018, the novel bio-imaging technique’s capabilities indicate
a brighter future for the medical industry as a whole. Originally designed for
particle physics detectors, the Medipix3 chip has found a new life beyond
the lab, making waves in medicine, space exploration, and even art
authentication.
By capturing X-ray photons at various energy levels and
translating them into vibrant colors, the Medipix3 scanner reveals a rich,
detailed view of different components within the human body, each color
highlighting unique structures and materials.
This technology lets us explore and understand what’s
beneath the surface in stunning, precise detail, making it a powerful tool
across diverse fields. And collectively, these developments and innovations are
expected to provide the global X-ray tube market with lucrative growth
opportunities during the forecast period.
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