[MATERIAL MH2] MODEL ONE

Medium-density composite matrix: made with a high-performance technical polymer matrix of balanced density. This configuration represents the most versatile professional standard in the entire range, engineered to offer a perfect compromise between stiffness and structural comfort

Linear and consistent mechanical response: the shaft structure is developed to ensure a linear and predictable dynamic response. This behavior ensures a neutral response sensitivity across the entire dynamic spectrum, following the performer's input with absolute playing consistency.

Stable vibrational behavior: thanks to the physical properties of the medium-density structure, this variant offers balanced absorption and excellent control of stresses. The system ensures moderate and controlled impact transmission, maintaining maximum stability in every musical context.

Versatile & Balance feel: the perfect balance point between stability and neutral dynamic response generates an extremely natural and predictable feel on impact. It is the optimal all-round solution for those who demand a stable, uniform and consistent instrument in every professional situation.

The designations MH1, MH2 and MH3 are internal technical codes assigned by MHADLY / Blue Series S.r.l. Unipersonale to specific families of technical materials used in the production of the Tech Sticks. The codes do not identify proprietary materials or official commercial names of the manufacturers, but represent exclusively an internal classification adopted for technical, production and traceability purposes.

Contained-type material release level


*The values indicated on the 0 to 7 reference scale were defined on the basis of internal tests carried out on white sandblasted drumhead, used as a reference surface for assessing the transfer of black residue. The classification is determined according to the visual perception of the release during impact, recorded by the internal technician responsible for carrying out the tests. This assessment does not derive from fully controlled or absolutely repeatable test conditions, but from observations made during real testing, and must be interpreted as a comparative indicator between materials and not as an objective or universally measurable value.