Structural foam technology doesn’t stand still. While incremental improvements to established materials continue—slightly better properties here, modest cost reductions there—genuine innovation that changes what’s possible in composite design happens rarely. ROHACRYL® represents one of those rare moments. Developed by Evonik…
Material selection in composite engineering has never been straightforward. Every project brings its own matrix of requirements—weight targets, mechanical loads, thermal environments, production volumes, budget constraints—and the “right” material emerges from navigating trade-offs that rarely resolve cleanly. For decades, engineers…
When engineers discuss structural foam cores, the conversation inevitably circles back to a fundamental tension: the desire for low weight pulling against the demand for high mechanical performance. Most foam materials force designers into uncomfortable compromises along this continuum. ROHACELL®…
Technical specifications tell one story about a material’s capabilities. Real-world applications tell another—often more compelling—story about how those specifications translate into solved engineering problems and competitive advantages. ROHACELL® and ROHACRYL® foams from Evonik have accumulated an impressive track record across…
The composites industry has long grappled with a fundamental challenge: finding core materials that maintain structural integrity under elevated processing temperatures without compromising on weight efficiency or driving up costs. For decades, manufacturers accepted certain trade-offs as inevitable. You could…
Materials science rarely stands still, and structural foam technology is no exception. The ROHACELL® product family that aerospace engineers specified twenty years ago has evolved substantially, with new grades addressing emerging applications and manufacturing processes. Understanding where this technology is…
