Manufacturing Post-processing is key for 3D printing: automates supports, polishing, chemical finishes, and quality control to produce efficient and precise end-use components.
Manufacturing Industrial 3D printing grows beyond 20% annually, moving from 40 to 250 billion dollars by 2035. Automation, aerospace, and defense adopt it for critical parts, cutting costs and times. Challenges: scalability, regulations, skills.
Manufacturing Additive manufacturing is revolutionizing automotive and heavy industry: new materials, cloud-native CAD, AI, and digital traceability enable flexible batches and resilient supply chains.
Manufacturing Accessories and post-processing techniques transform 3D printing into professional production: automated washing, chemical smoothing, polymerization, and coloring guarantee industrial-quality finishes on every material.
Manufacturing In 2026, industrial automation focuses on cyber-physical systems, predictive AI, digital twins, and cobots for flexible, safe, and data-driven production flows, overcoming the limitations of traditional lines.
Manufacturing The lack of skills is slowing the growth of additive manufacturing: universities, industry, and certifications converge to rapidly train 4.0 professionals.
Manufacturing The EU pushes for shared standards for autonomous systems and additive manufacturing: rigorous qualification, traceability, and ISO/AS certifications to accelerate industrial adoption and reduce risks.
Manufacturing Multi-material 3D printing: a single part with rigid, flexible, conductive zones. Innovations from Bambu to Stratasys, automotive-aerospace applications, open-source software, and US investments toward mass production.
Manufacturing Metal additive manufacturing is now essential in aerospace and defense: lightweight alloys, DMLS/EBM/FFF processes and increasingly stringent certifications reduce weight, times and costs, but powder qualification and supply-chain remain the main challenges.
Manufacturing The metal 3D printing market is projected to grow by 251% in 2025, driven by aerospace, defense, and China. New PBF and FFF technologies make production more accessible, efficient, and sustainable. Forecasts: $170-250 billion by 2035.
Manufacturing Bio-based and recycled polymers are revolutionizing the industry: LFAM and SLS enable high-performance sustainable components, but standards and precise control of material transitions are needed to scale.
Manufacturing In 2026, 4.0 automation integrates AI, IoT, and flexible robotics for end-to-end production chains. Scalability, traceability, and hybrid skills are essential for competitiveness.