Add to ORKGEthylene-Vinyl Acetate (EVA) is the most popular material for manufacturing mouthguards. However, EVA mouthguards are problematic, for example inconsistent thicknesses across the mouthguard. Additive manufacturing provides a promising solution to this problem, as it can manufacture mouthguards with a greater precision. This paper compares the energy dissipation of EVA, the current material used for mouthguards, to various designs of a 3D printed material, some of which contain air cells. Impact testing was carried out at three different strain rates. The Split-Hopkinson bar was used for medium and high strain rate tests, and an Instron test rig was used for low strain rate testing. The best performing design dissipated 25% more energy than ...
One of the suggestions for using laminated mouthguards is the inclusion of hard inserts to improve m...
Most of the past studies have concentrated on the properties of mouthguard materials rather than the...
Additive manufacturing continues to advance as a technology. One aspect of additive technologies th...
Up to this moment, there is no guideline regarding the materials to produce mouthguards. The most us...
Objective: To investigate the impact characteristics of an ethylene vinyl acetate (EVA) mouthguard m...
Mouthguards are polymeric devices recommended to be used by athletes to help prevent orofacial injur...
Objectives: To compare transmitted forces through ethylene vinyl acetate (EVA) mouthguard material a...
Mouthguards are essential in the prevention of athletic oral/facial injuries. The mouthguards are ty...
PubMedID: 19208026High impact energy absorption is an essential property for mouthguard materials. T...
The aim of this study was to evaluate, in vitro, the EVA material (polyvinylacetate-polyethylene cop...
A modified mouthguard material which reduces transmitted forces is described. Tests showed that the ...
A major consideration in the performance of mouthguards is their ability to absorb energy and reduce...
A modified mouthguard material which reduces transmitted forces is described. Tests showed that the ...
This study proposes an innovative design solution based on the design for additive manufacturing (Df...
Protective equipment in sport is used to reduce the risk of incurring injury while competing, with m...
One of the suggestions for using laminated mouthguards is the inclusion of hard inserts to improve m...
Most of the past studies have concentrated on the properties of mouthguard materials rather than the...
Additive manufacturing continues to advance as a technology. One aspect of additive technologies th...
Up to this moment, there is no guideline regarding the materials to produce mouthguards. The most us...
Objective: To investigate the impact characteristics of an ethylene vinyl acetate (EVA) mouthguard m...
Mouthguards are polymeric devices recommended to be used by athletes to help prevent orofacial injur...
Objectives: To compare transmitted forces through ethylene vinyl acetate (EVA) mouthguard material a...
Mouthguards are essential in the prevention of athletic oral/facial injuries. The mouthguards are ty...
PubMedID: 19208026High impact energy absorption is an essential property for mouthguard materials. T...
The aim of this study was to evaluate, in vitro, the EVA material (polyvinylacetate-polyethylene cop...
A modified mouthguard material which reduces transmitted forces is described. Tests showed that the ...
A major consideration in the performance of mouthguards is their ability to absorb energy and reduce...
A modified mouthguard material which reduces transmitted forces is described. Tests showed that the ...
This study proposes an innovative design solution based on the design for additive manufacturing (Df...
Protective equipment in sport is used to reduce the risk of incurring injury while competing, with m...
One of the suggestions for using laminated mouthguards is the inclusion of hard inserts to improve m...
Most of the past studies have concentrated on the properties of mouthguard materials rather than the...
Additive manufacturing continues to advance as a technology. One aspect of additive technologies th...