Add to ORKGNatural materials and structures have evolved over millions of years to perform very complex and specific biomechanical functions, and as a result can provide insight into optimal designs for particular properties. Mussel byssal threads, the attachment appendage of aquatic mus-sels, are one example of such structures. These threads protrude from the mussel, connecting the mussel to rocks and other hard surfaces, providing a strong and resilient, yet dissipa-tive attachment (so that the mussel can remain attached to the rocks without being dashed against them during violent wave periods). The threads themselves are graded, with both the geometry (cross-section) and the mechanical properties transitioning from the proximal (proximal to the mu...
The blue mussel, Mytilus edulis, attaches itself to the substrate by producing a radially arranged c...
In hydrodynamically turbulent marine environments, the settlement and survival of marine organisms d...
Mussels are well known for their ability to generate and maintain strong, long-lasting adhesive bond...
Materials found in nature exhibit remarkable properties allowing natural living systems to survive. ...
The byssi of sessile mussels have the extraordinary ability to adhere to various surfaces and withst...
The ability to produce a strong byssal attachment is one key to the competitive dominance of mussels...
The byssus threads of the common mussel, Mytilus edulis L., have been tested mechanically and the re...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.Includes...
DoctorAchieving robust attachment between living tissues and inert materials comes with the main cha...
The proteinaceous byssal plaque-thread structures created by marine mussels exhibit extraordinary lo...
Mussels use byssal threads to secure themselves to rocks and as shock absorbers during cyclic loadin...
The proteinaceous byssal plaque-thread structures created by marine mussels exhibit extraordinary lo...
The mussel byssus is a unique holdfast structure employed by marine mussels to colonize diverse subs...
AbstractThe byssal threads of marine mussels are a fiber-reinforced composite material. Fibers are c...
The dissipative and self-healing properties of mussel byssal threads are critical for their function...
The blue mussel, Mytilus edulis, attaches itself to the substrate by producing a radially arranged c...
In hydrodynamically turbulent marine environments, the settlement and survival of marine organisms d...
Mussels are well known for their ability to generate and maintain strong, long-lasting adhesive bond...
Materials found in nature exhibit remarkable properties allowing natural living systems to survive. ...
The byssi of sessile mussels have the extraordinary ability to adhere to various surfaces and withst...
The ability to produce a strong byssal attachment is one key to the competitive dominance of mussels...
The byssus threads of the common mussel, Mytilus edulis L., have been tested mechanically and the re...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2009.Includes...
DoctorAchieving robust attachment between living tissues and inert materials comes with the main cha...
The proteinaceous byssal plaque-thread structures created by marine mussels exhibit extraordinary lo...
Mussels use byssal threads to secure themselves to rocks and as shock absorbers during cyclic loadin...
The proteinaceous byssal plaque-thread structures created by marine mussels exhibit extraordinary lo...
The mussel byssus is a unique holdfast structure employed by marine mussels to colonize diverse subs...
AbstractThe byssal threads of marine mussels are a fiber-reinforced composite material. Fibers are c...
The dissipative and self-healing properties of mussel byssal threads are critical for their function...
The blue mussel, Mytilus edulis, attaches itself to the substrate by producing a radially arranged c...
In hydrodynamically turbulent marine environments, the settlement and survival of marine organisms d...
Mussels are well known for their ability to generate and maintain strong, long-lasting adhesive bond...