Tecnologia: FDM

Beyond Traditional Slicing: Advanced Architectures for Path Planning in Industrial 3D Printing

Beyond Traditional Slicing: Advanced Architectures for Path Planning in Industrial 3D Printing

The article explores how advanced software architectures, such as 64-bit systems and modern geometric libraries, are revolutionizing path planning in slicers for industrial 3D printing, improving precision, reliability, and efficiency.

From Maker Lab to Real Production: How Desktop 3D Printers Are Scaling in the Consumer and Industrial Markets

From Maker Lab to Real Production: How Desktop 3D Printers Are Scaling in the Consumer and Industrial Markets

3D desktop printers are becoming concrete production tools, no longer just for makers. In 2025, China exported over 5 million units, with a 331% growth. Technological improvements make them more reliable, easier to use, and suitable for professional sectors like cinema and racing drones. Adoption is growing among professionals, schools, and small businesses, with concrete cases of pr

Resilience and Hidden Costs: How Geopolitics Is Redesigning Global Supply Chains

Resilience and Hidden Costs: How Geopolitics Is Redesigning Global Supply Chains

The resilience of global chains is becoming crucial for economic sustainability. Geopolitics reveals hidden costs related to distances, logistics, and systemic fragility. Companies are reconsidering production localization and additive manufacturing to reduce risks and improve self-sufficiency.

Nozzle and Gcode: Advanced Techniques for Precision in 3D Printing

Nozzle and Gcode: Advanced Techniques for Precision in 3D Printing

Optimizing nozzle and G-code is essential for precise 3D printing. The choice of nozzle diameter, extrusion calibration, and the correct use of G1, M109/M104 commands allow for avoiding defects and improving quality. Advanced techniques like Blender simulation and custom nozzles open new possibilities in areas such as food or ceramics.

Comparison of 3D Printing Technologies for Polymers: FDM, SLA, SLS, and MJF Compared

Comparison of 3D Printing Technologies for Polymers: FDM, SLA, SLS, and MJF Compared

Comparison between 3D printing technologies for polymers: FDM, SLA, SLS, and MJF. Each technology offers specific advantages in terms of precision, mechanical strength, surface finish, and industrial applications. The evolution of materials is expanding operational boundaries in advanced sectors such as aerospace, automotive, and medical.

HP extends Multi Jet Fusion service: here is how the 3D printing industry is changing

HP extends Multi Jet Fusion service: here is how the 3D printing industry is changing

HP expands Multi Jet Fusion service with the new IF 600HT printer and the Maintenance & Monitoring Service, targeting the industry with greater reliability, scalability, and flexibility on materials.

Integration of 3D Printing in Hospitals: An Operational Guide for Safe and Efficient Clinical Implementation

Integration of 3D Printing in Hospitals: An Operational Guide for Safe and Efficient Clinical Implementation

3D printing in hospitals is becoming an essential resource for personalized medicine, with applications ranging from anatomical models to custom implants. Integration requires adequate technologies, biocompatible materials, standardized workflows, and trained staff. Benefits include shorter waiting times, greater clinical precision, and cost reduction. Leading hospitals

Advanced Training for Industrial 3D Printing: How Companies Build Scalable Competencies

Advanced Training for Industrial 3D Printing: How Companies Build Scalable Competencies

Advanced training in industrial 3D printing is now strategic for bridging the skills gap and ensuring the growth of the sector. Structured programs, academic partnerships, and hybrid learning models are preparing professionals capable of integrating technology and productive practice.

Additive Manufacturing vs Plastic Injection: Trade-offs in Industrial and Aerospace Contexts

Additive Manufacturing vs Plastic Injection: Trade-offs in Industrial and Aerospace Contexts

The choice between 3D printing and plastic injection depends on volume, customization, and operational context. Injection dominates in high volumes, while 3D printing is preferred for small batches and complex geometries. Both are complementary.

Industrial 3D Printing: Contract Clauses at Risk and How to Avoid Them

Industrial 3D Printing: Contract Clauses at Risk and How to Avoid Them

Industrial 3D printing presents often underestimated contractual risks, with clauses that unilaterally shift liability and costs onto clients. Key points include: GPS tracking, geographic limits, training obligations, vague definitions of “failure”, and choice of jurisdiction. It is essential to negotiate fair contracts to avoid legal constraints and ensure safe operations.

Managing Software and Firmware Updates for Printers: A Technical Operational Guide

Managing Software and Firmware Updates for Printers: A Technical Operational Guide

Updating printer firmware and software is essential to prevent errors, optimize materials, and improve efficiency. Neglecting them can cause waste, interruptions, and a drop in quality. Following an accurate procedure, with testing and backups, allows you to fully leverage technological advantages and extend the life of the machines.

How to Design a High-Volume 3D Printing University Makerspace

How to Design a High-Volume 3D Printing University Makerspace

The University of Wisconsin–Madison Makerspace is a model of a high-volume 3D printing university laboratory, based on standardized workflows, FDM/FFF technologies, and a hybrid team of students and technicians. Thanks to this approach, the center manages thousands of annual prints with high efficiency, supporting teaching, research, and innovation in a scalable and sustainable ecosystem.

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