Download our free infographic to get a clear, side-by-side comparison of single-layer, multilayer, and 3D-printed fluidic manifolds so you can move faster and make more informed design decisions.

Whether you're building a medical diagnostic device, an diagnostic instrument, or an aerospace system, choosing the right manifold architecture is imperative for cost, performance, and scalability.

• The structural properties and manufacturing differences between single-layer, multilayer bonded, and 3D-printed manifolds
• Pros and cons for each type: design flexibility, footprint, cost-efficiency, chemical compatibility, and more
• When to choose each method depending on your fluid path complexity, pressure requirements, and production volumes

Designing your manifold the wrong way can lead to excessive costs, design delays, or failures in the field. This infographic distills expert knowledge into a visual, easy-to-reference format that helps engineers, designers, and procurement teams align on the best path forward—early in the development cycle.