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This article will discuss how 3D printing is enabling localized manufacturing by reducing dependency on global logistics and supporting supply chain flexibility.
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3D Printing & Digital Manufacturing
report
This Report shows how tools like artificial intelligence, digital twins, and on-demand manufacturing are no longer emerging concepts, but are already delivering measurable impact across the product lifecycle.
Featured
3D metal printing also known as metal additive manufacturing is transforming the production of complex metal components. This technology enables the creation of intricate geometries and internal structures that would be challenging or impossible to achieve through conventional manufacturing methods
Featured
New materials like Cubic Ink 303 VP ESD and AzureFilms Prime HS deliver heat-deflection over 220 Degrees Celsius and matte finish quality - expanding plastics beyond prototyping into tooling and functional parts.
Engineers Wiki. Most Asked Questions.
Comprehensive Guide
An engineer’s guide to understanding the state of the art in metal 3D Printing
What Is 3D Printer Filament? Types, Materials, and How to Choose
By Benedict O'Neill.
18 minutes read.
3D Printing in Healthcare: Engineering Applications and Impact
By Benedict O'Neill.
19 minutes read.
3D Printing Food: A Guide for Engineers and the Food Industry
By Benedict O'Neill.
11 minutes read.
How Does 3D Printing Work? An Introduction to Additive Manufacturing
By Benedict O'Neill.
12 minutes read.
Resin 3D Printing: An Introductory Guide for Engineers
By Benedict O'Neill.
11 minutes read.
ORGANIZATIONS. SHAPING THE INDUSTRY.
The Next Byte
Entertainment
The Next Byte Podcast is hosted by two young engineers - Daniel and Farbod - who select the most interesting tech/engineering cont...
165 Posts
TAGGED WITH 3d printing
EPFL researchers have developed a way to use holograms to guide laser light for ultra-efficient, fast, and precise volumetric 3D printing. The innovation enables cell-compatible, high-resolution 3D printing at scales suitable for biomedical applications.
event | JUN 02 - JUN 04, 2026
An annual industry event focused on additive manufacturing, industrial 3D printing, and advanced manufacturing technologies in Europe.
Princeton researchers have combined brain cells and advanced electronics into a 3D device that can be programmed to recognize patterns using computational techniques.
The Future of Metal AM is moving faster than ever. Are you keeping pace?
TAGGED WITH smart material printing
Discover how iAM Marketplace simplifies industrial additive manufacturing by unifying materials, validation services, and multi-brand technologies into one open ecosystem for efficient AM sourcing.
This article discusses what attendees can expect from TCT Asia 2026, including its conference format, focus areas, and the experts contributing to industry-specific discussions.
This article discusses the exhibitors, products, and industrial trends defining additive manufacturing across the Asia-Pacific region at TCT Asia 2026.
This article discusses how the Asia-Pacific region is advancing additive manufacturing and the role of TCT Asia as the leading 3D printing and additive manufacturing event in the Asia-Pacific.
Latest Posts
This article will discuss how 3D printing is enabling localized manufacturing by reducing dependency on global logistics and supporting supply chain flexibility.
3D metal printing also known as metal additive manufacturing is transforming the production of complex metal components. This technology enables the creation of intricate geometries and internal structures that would be challenging or impossible to achieve through conventional manufacturing methods
16 minutes read
New materials like Cubic Ink 303 VP ESD and AzureFilms Prime HS deliver heat-deflection over 220 Degrees Celsius and matte finish quality - expanding plastics beyond prototyping into tooling and functional parts.
3 minutes read
When it comes to creating plastic parts, choosing between CNC machining and 3D printing can feel like a tough call. This article breaks down the key differences between these two powerhouse technologies.
7 minutes read
A Review of Presentations from CDFAM Computational Design Symposium Series, Past and Future
8 minutes read
Aerospace 3D printing has emerged as a transformative technology in the aviation and space industries, revolutionizing component design, prototyping, and manufacturing.
10 minutes read
On-site printing of lightweight PSU fillers slashes carbon impact and supply chain complexity—Finnair now sources spare parts locally in Dubai, Singapore, and beyond.
2 minutes read
Understanding how to leverage infill effectively is crucial for maximizing the potential of 3D printing technology.
15 minutes read
From the experts at CDFAM Computational Design Symposium
3 minutes read
Accelerate production, reduce downtime, and gain a competitive edge by integrating on-demand digital manufacturing into your operations.
3D composite printing is transforming manufacturing by combining the flexibility of additive manufacturing with enhanced material properties. This innovative technology enables the creation of complex parts with improved strength, stiffness, and performance characteristics.
7 minutes read
By eliminating greenhouse-gas shielding and enabling 20% savings, this wire-based process could reshape aerospace and mobility parts manufacturing.
Photonics is advancing 3D printing by enabling ultra-precise, high-speed manufacturing.
Delta-style motion kinematics offer speed and accuracy advantages, enabling engineers to shorten their rapid prototyping times and reduce time-to-market for new products.
Understanding the key differences, applications, and selection criteria for fillets and chamfers in digital design, hardware, and electronics engineering.
