Global Cubic Boron Nitrates Market to Reach New Heights by 2035: Comprehensive Size and Share Analysis
The global
market
for cubic boron nitrates is projected to attain a valuation of USD 1,021.2
million by 2025, with an anticipated compound annual growth rate (CAGR) of
7.8%, ultimately reaching USD 2,164.3 million by 2035.
Cubic
boron nitride (CBN) ranks as one of the hardest materials, second only to
diamond. The demand for CBN has increased significantly due to its applications
in metalworking and high-precision manufacturing. CBN is produced under
conditions of elevated pressure and temperature, establishing itself as an
essential component in various industrial processes, particularly in the
machining of hardened steels and super alloys.
Cubic
boron nitrates (CBNs) serve as a widely utilized abrasive material. Ranking as
the second-hardest substance after diamonds, CBNs exhibit exceptional thermal,
hardness, and chemical stability. Their mechanical strength stands out as a
particularly significant characteristic. CBNs are often incorporated into the
tool bits of cutting instruments and find applications in both mechanical and
electronic fields.
The
anticipated increase in demand for cutting operations is likely to stimulate
growth in the global cubic boron nitrates market throughout the forecast
period. CBNs possess a robust bonding structure and are effective under both
pressure and temperature conditions, which are frequently utilized in cutting
processes. These advantages are projected to contribute to market growth during
the forecast timeframe.
“Rapidly
expanding automotive, construction, and electronics industries worldwide is
expected to boost the demand for cubic boron nitrates. The chemical compound is
widely employed in nanotechnology, which is projected to accelerate
market expansion. Moreover, growing demand for water-resistance pipes and razor
blades is anticipated to propel market growth,” says a Fact.MR analyst
Competitive Landscape
Key players in the cubic boron nitrates market
continue pursuing marketing methods such as investments, collaborations,
technological innovations, R&D activities, and acquisitions to expand and
maintain their overseas footprint.
· In December 2021, AIXTRON successfully developed,
constructed, and installed a sophisticated industrial-grade reactor for
graphene and cubic boron nitride, capable of producing 200 mm epi-wafers. This
advanced chemical vapor deposition (CVD) tool was created as part of the GIMMIK
research initiative, which aims to assess the production of graphene layers in
industrial environments, identify vulnerabilities, and suggest strategies to
eliminate sources of error. The project also involves testing material
configurations and the integration of graphene features into electrical
systems. Concurrently, new techniques for the large-area, contact-free
characterization of graphene will be established.
· In September 2021, WIKUS-Sägenfabrik broadened its product
offerings by introducing CUBOGRIT® band saw blades that are coated with cubic
boron nitride (CBN). This innovation marks the first time users will have
access to CBN-coated band saw blade technology, enabling them to efficiently
cut through 3D hard alloys and hardened ferrous materials with hardness ratings
of up to 70 HRC. WIKUS showcased these new band saw blades at EMO Hanover, the
leading global trade fair for metalworking.
· In August 2021, researchers at Cornell University utilized
ultrathin graphene and cubic boron nitride to develop a miniature magnetic
field sensor that operates effectively across a broader temperature range than
previous sensors. This sensor is capable of detecting minute changes in
magnetic fields that would typically be obscured in a larger magnetic
environment. Nowack's laboratory specializes in employing scanning probes for magnetic
imaging, with the superconducting quantum interference device (SQUID) being a
preferred tool due to its efficiency at low temperatures and in moderate
magnetic fields.
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