Applicazione: Production

Sustainable materials in action: how the industry is implementing bio-based solutions on a large scale

Sustainable materials in action: how the industry is implementing bio-based solutions on a large scale

The industry is implementing bio-based sustainable materials on a large scale, integrating responsible agricultural supply chains, technological innovation and circular economy. Projects such as Pragati, Bio.3DGREEN and Virtucycle demonstrate how sustainability and industrial performance can coexist, thanks to strategic partnerships and standardization.

Self-produced design without compromise: the True Iconic Design case

Self-produced design without compromise: the True Iconic Design case

There's a prejudice that's hard to die: 3D printed products have an inevitably compromised aesthetic. True Iconic Design overturns this logic by building sculptural home accessories where the production technology disappears completely — and only the design remains.

Part Identification via CAD without ML Model Retraining

Part Identification via CAD without ML Model Retraining

A new innovative method enables the automatic identification of 3D printed parts directly using CAD models, without the need to retrain machine learning models. Developed by KU Leuven, Materialise, and Iristick, the system leverages geometric representations and few-shot learning techniques to classify new parts quickly and efficiently, reducing times and

Alloy Evolution: How high-entropy refractory alloys are redefining the aerospace industry

Alloy Evolution: How high-entropy refractory alloys are redefining the aerospace industry

High-entropy refractory alloys are revolutionizing aerospace thanks to superior properties at extreme temperatures. Compared to traditional Inconel, they offer greater strength, lower weight, and better performance in applications such as combustion chambers, nozzles, and hypersonics. RCCAs, with disordered BCC structures, exceed melting and corrosion limits, opening up new possibilities for

How Chemical Vapor is Revolutionizing the Post-Processing of 3D Parts

How Chemical Vapor is Revolutionizing the Post-Processing of 3D Parts

Chemical vapor is revolutionizing the post-processing of 3D parts, offering smooth, waterproof, and repeatable finishes without material removal. Automated technologies like AMT PostPro eliminate production bottlenecks, reduce costs, and improve mechanical properties, making additive production scalable and certifiable for demanding industries.

New Era of Governance: The Evolution of Leadership in the Additive Manufacturing Industry

New Era of Governance: The Evolution of Leadership in the Additive Manufacturing Industry

The Additive Manufacturing Alliance, born from the union of Leading Minds and AM I Navigator, promotes the industrial integration of additive manufacturing through structured governance, standardization, and operational support.

Additive Manufacturing in Production: How Industrial Companies Build Reliable Processes

Additive Manufacturing in Production: How Industrial Companies Build Reliable Processes

The adoption of additive manufacturing in industry requires operational discipline, focus on defined part families, and rigorous process control. Technology alone is not enough: organizational management is needed to ensure reliability and repeatability. Winning applications are born where performance advantages outweigh complexity, such as in aerospace, medical, and tooling. Integration

Implementing the Digital Thread in Additive Manufacturing: An Operational Playbook for Multi-CAD Integration

Implementing the Digital Thread in Additive Manufacturing: An Operational Playbook for Multi-CAD Integration

Implementing the digital thread in additive manufacturing is now an operational necessity, no longer a futuristic vision. Multi-CAD integration requires reliable solutions to overcome interoperability barriers, ensure traceability, and maintain data consistency throughout the entire production cycle. Case studies and best practices show how middleware, clear governance, and hybrid toolchains can

Designing “Lights-Out” Factories: The Software Architecture That Makes the Difference

Designing “Lights-Out” Factories: The Software Architecture That Makes the Difference

Designing lights-out factories requires an advanced software architecture that integrates machines, data, and processes in real time. Software-defined automation makes it possible to overcome the limitations of proprietary solutions, ensuring interoperability, security, and scalability. Only in this way can artificial intelligence be fully leveraged to optimize production and maintain control of the p

How the Soft Optical SOLen Sensor Works in Medical Applications

How the Soft Optical SOLen Sensor Works in Medical Applications

The SOLen soft optical sensor uses light to measure deformations with high precision and stability, overcoming the limits of traditional sensors. Thanks to a 3D-printed Y-structure and a differential configuration of photoreceptors, it offers reliable measurements and is insensitive to environmental interference. Ideal for advanced medical devices, smart orthoses, and monitoring systems

Reducing healthcare costs with 3D printing: the economic impact of customized devices

Reducing healthcare costs with 3D printing: the economic impact of customized devices

Customized 3D printing reduces healthcare costs by preventing avoidable complications, such as oral mucositis, cutting nursing hours and unscheduled hospitalizations by up to 25%. Thanks to tailor-made devices, unnecessary radiological exposure is reduced, improving clinical efficiency and ROI.

Superelastic Metamaterials: How the Combination of Reticulated Structures and NiTi Works for Advanced Mechanical Properties

Superelastic Metamaterials: How the Combination of Reticulated Structures and NiTi Works for Advanced Mechanical Properties

Researchers have developed superelastic metamaterials in Nitinol with interwoven 3D-printed structures, combining superelasticity and lattice architectures to achieve advanced mechanical properties without altering the chemical composition. These materials, which behave more like fabrics than metals, open new possibilities for biomedical implants, protective devices, and stru

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