The report "3D Printing Market by Offering (Printer, Material, Software, Services), Technology (Fused Deposition Modelling, Stereolithography), Process (Powder Bed Fusion, Material Extrusion, Binder Jetting), Application, Vertical & Region - Global Forecast to 2029" The 3D Printing market is projected to grow from USD 17.5 billion in 2024 and is estimated to reach USD 37.4 billion by 2029; it is expected to grow at a Compound Annual Growth Rate (CAGR) of 16.4% from 2024 to 2029. The growth of the 3D Printing market is driven by ease in the advancement of customized products; reduction in manufacturing cost and process downtime; global government investment in 3D printing projects; availability of wide variety of industrial-grade 3D printing materials; complex part manufacturing in the aerospace & defense sector.
By offering, service
segment is projected to grow at a high CAGR of 3D Printing market during the
forecast period.
3D printing services
have entirely revolutionized the manufacturing process in various industries.
This growth is fueled by the transformative impact of 3D printing services on
manufacturing across various industries. These services enable customers to customize
designs, offering unprecedented flexibility in designing and manufacturing 3D
printed parts and accelerating product development through efficient iteration
management. Industries like dental, aerospace, civil and military aeronautics,
and jewelry have already experienced a revolution in their manufacturing
processes, leveraging 3D printing for streamlined production, enhanced design
possibilities, and cost reduction. The on-demand nature of 3D printing services
reduces costs associated with tools and fixtures by eliminating the need for
large inventories and minimizing downtime. Additionally, 3D printed tools made
from high-strength plastics are strong, lightweight, cost-effective, and
drastically reduce replacement time from weeks to hours, optimizing
manufacturing processes and overall operational efficiency for businesses
embracing 3D printing services across diverse industry verticals.
Selective laser
Sintering (SLS) segment in technology will account for highest CAGR during the
forecast period.
Selective Laser
Sintering involves a powder-based 3D printing method that integrates laser to
fuse layers of material, creating a final part. The process begins by tracing
the pattern of individual cross-sections of the 3D design onto a powder bed
using the laser. Once the layer is formed, the build platform descends, and
another layer is added on top, repeating until the part is complete. SLS is
favored for functional applications requiring snap fits, living hinges, and
mechanical joints due to its material range and platform sizes, making it
suitable for producing robust products with strength and heat resistance
directly. Notably, SLS stands out as a self-supporting additive manufacturing
technology, eliminating the need for additional support structures and allowing
for the creation of intricate geometries and monolithic assemblies. Its
durability and capability to rival traditionally manufactured parts make it
ideal for end-use applications in industries like automotive and aerospace. The
technology's ability to produce complex parts without expensive tooling or
retooling translates into significant time and cost savings, especially for
small-run parts and mass customization. Additionally, SLS facilitates the
digital storage of designs, ensuring accessibility and readiness for production
as needed, further enhancing its efficiency and applicability in various
manufacturing contexts.
Powder Bed Fusion in
process segment in 3D Printing market will account for the highest CAGR during
the forecast period.
Powder bed fusion (PBF)
stands out as a rapidly growing process within the 3D printing market,
initially prevalent in 3D metal printers but expected to expand into 3D polymer
printers in the near future. This method offers numerous advantages, including reduced
material wastage and costs due to a superior buy-to-fly ratio, accelerated
production development times, and the ability to swiftly prototype and produce
low volumes. PBF's strengths extend to creating functionally graded parts,
enabling fully customized batches, eliminating fixed designs, and delivering
superior resolution compared to other additive manufacturing techniques.
Moreover, PBF facilitates the efficient recycling of un-melted powder and
enables the joining diverse material grades like ceramics, glass, plastics,
metals, and alloys, eliminating the need for machining fixtures. Its widespread
industrial applications span medical sectors, where it customizes orthopedic
components like titanium alloy cranial or acetabular implants to aerospace domains,
such as producing GE9X engine fuel nozzles for Boeing 777 aircraft. Notably,
the Boeing 777 incorporates 300 additively manufactured parts, showcasing PBF's
significance in aerospace innovation. Automotive leaders like Koenigsegg also
leverage PBF across their manufacturing processes, utilizing it for rapid
prototyping and creating metal parts like turbocharger housings, exhaust
components, air ducts, and interior mirrors for production vehicles like the
'One:1' hypercar.
Functional Part
Manufacturing in the application segment in the 3D Printing market will account
for the highest CAGR during the forecast period.
Continuous advancements
in 3D printing technology have propelled the capability of producing
mechanically functional parts at high volumes, a domain traditionally dominated
by conventional manufacturing methods. One key driver of this shift is the
development of faster printing speeds and techniques. For instance, in November
2022, Wipro (India), as part of Wipro's manufacturing initiative, launched its
first indigenous industrial-grade 3D printer, the Wipro 3D F300-2. This
printer, designed for educational institutes, industries, and R&D centers,
featured automatic platform leveling, a magnetic print bed, a self-cleaning
nozzle, and IoT-enabled remote monitoring. It catered to manufacturing
functional parts with a wide range of industrial-grade materials, showcasing
advancements in additive manufacturing capabilities.
Automotive in the
vertical segment in 3D Printing market will account for the highest CAGR during
the forecast period.
3D Printing has gained
significant traction in the automotive industry, particularly for prototyping
projects. 3D printing services offer rapid and cost-effective solutions for
producing complex automotive prototype parts, facilitating iterative design and
validation processes. This technology allows for the development of custom
prototypes without complex tooling, supports iterative design changes,
accommodates complex part geometries, enables on-demand production, offers
material selection flexibility, and is cost-effective for low-volume
manufacturing. Companies like Elite Mold & Engineering, a leading 3D
printing specialist in Michigan, provide comprehensive services from
prototyping to production, catering to the automotive sector's evolving needs
with streamlined solutions. Companies like BMW (Germany), Renault Group
(France), and Porsche (Germany) are also actively using 3D printing for
prototyping and exploring end-use part applications. For instance, in November
2023, BMW (Germany) integrated the Solukon SFP770 unpacking and cleaning
station for 3D-printed plastic parts at its Additive Manufacturing Campus. This
system combined necessary post-processing steps, streamlined prototyping
workflows, and enabled efficient cleaning and finishing of SLS parts,
supporting BMW's automated additive manufacturing production line success for
automotive parts. Ford uses HP’s 3D printing technology to reuse its 3D printed
powders and parts and produce injection molded fuel-line clips for its Super
Duty F-250 trucks. The reused materials deliver better chemical and moisture
resistance, are lighter, and minimize the costs by 10% compared to the
conventional fuel-line clips.
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Asia Pacific will
account for the highest CAGR during the forecast period.
The Asia Pacific region
is poised to experience rapid growth in the 3D printing market, driven by a
notable shift toward prototyping and advanced manufacturing using this
technology. Government initiatives, coupled with robust research and
development capabilities and foreign direct investment (FDI), have played a
pivotal role in accelerating market growth. In China, technological
advancements have spurred the adoption of 3D printing, with many companies
replacing traditional manufacturing assembly lines with 3D printers. India has
also witnessed substantial growth, supported by a strong knowledge base and
government initiatives in manufacturing. Industry players in the region are
actively developing ecosystems that support additive manufacturing and other
advanced technologies. Countries like Singapore, Malaysia, Australia, and
Vietnam are at the forefront of research and development, contributing to a
robust ecosystem for 3D printing applications.
Key Players
Key companies operating
in the 3D Printing market are Stratasys (US), 3D Systems, Inc. (US), HP
Development Company, L.P. (US), EOS GmbH (Germany), General Electric (US),
Materialise NV (Belgium), Desktop Metal, Inc. (US), voxeljet AG (Germany), SLM
Solutions (Germany), Renishaw plc. (UK).
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