Ter Hoek Expands Into Technical Ceramic Manufacturing with XJet Carmel 1400C 3D Printing Solution

Ceramic additive manufacturing has moved from niche prototyping to a viable production technology, driven by advances such as XJet’s NanoParticle Jetting (NPJ) platform. The Carmel 1400C system delivers 1,400 dpi resolution, enabling intricate lattice structures and near‑net‑shape parts with surface finishes that rival traditional sintering. Compared with conventional ceramic processing, the jetting approach reduces material waste, shortens lead times, and eliminates multiple handling steps, making it attractive for high‑value sectors that demand both dimensional accuracy and material performance. These capabilities are reshaping design strategies across aerospace, electronics, and medical device manufacturing.

Ter Hoek’s decision to integrate the Carmel 1400C marks a strategic shift from its long‑standing metal‑focused precision services to a dual‑material offering. By digitizing the ceramic workflow, the Dutch firm can automate build preparation, post‑processing, and quality inspection, reducing cycle times that previously spanned weeks. The ability to iterate designs rapidly in a single platform also opens cross‑selling opportunities to existing aerospace, semiconductor, and medical clients who already rely on Ter Hoek’s metal components. This diversification not only broadens revenue streams but also positions the company as a one‑stop supplier for complex, high‑performance parts.

The partnership also signals a broader European push to localize advanced ceramic production, reducing reliance on Asian suppliers and shortening supply chains. With XJet and Ter Hoek showcasing NPJ technology at Ceramitec 2026, industry leaders can evaluate real‑world part performance and assess cost‑benefit scenarios for scaling up. As regulatory standards tighten around thermal management and biocompatibility, the combination of high‑resolution jetting and Ter Hoek’s precision engineering is likely to accelerate adoption of ceramic components in next‑generation aircraft engines, semiconductor packaging, and implantable medical devices.