Invented in 1988 and improved to this day, our dial system has been selected by NASA on the SpaceX Crew-8 Mission. It will be part of a project to mitigate the effects of microgravity on the human body in the absence of gravity.
SIDI SOARS INTO SPACE
Our Dyneema® dial system is reaching new heights to counteract the effects of microgravity.
Nasa, in collaboration with Clemson University, is building venous constriction structures to limit the effects caused by blood movements in the body in space.
Our system was chosen for its micro-adjust capability and its unique durability, a must-have in far away space missions.
Nasa, in collaboration with Clemson University, is building venous constriction structures to limit the effects caused by blood movements in the body in space.
Our system was chosen for its micro-adjust capability and its unique durability, a must-have in far away space missions.
A SIDI INVENTION
The world's first dial system was invented by Sidi in 1988 as a way to engineer a higher tension – micro-adjustable closure system on cycling and motorcycling footwear.
From that day, our dial system has constantly evolved to meet the extreme forces applied in racing. Built on high-density resin and Dyneema® (the world’s strongest fiber) cable, our system provides a higher amount of tension and adjustability, thanks to its knob system, in an built to last system that delivers unmatched durability.
A SIDI INVENTION
The world's first dial system was invented by Sidi in 1988 as a way to engineer a higher tension – micro-adjustable closure system on cycling and motorcycling footwear.
From that day, our dial system has constantly evolved to meet the extreme forces applied in racing. Built on high-density resin and Dyneema® (the world’s strongest fiber) cable, our system provides a higher amount of tension and adjustability, thanks to its knob system, in an built to last system that delivers unmatched durability.
The world's first dial system was invented by Sidi in 1988 as a way to engineer a higher tension – micro-adjustable closure system on cycling and motorcycling footwear.
From that day, our dial system has constantly evolved to meet the extreme forces applied in racing. Built on high-density resin and Dyneema® (the world’s strongest fiber) cable, our system provides a higher amount of tension and adjustability, thanks to its knob system, in an built to last system that delivers unmatched durability.
CREW 8
Crew-8 is the eighth operational astronaut mission SpaceX has carried out for NASA to the International Space Station.
The four crew members - Matthew Dominick, Michael Barratt, Jeanette Epps, and Alexander Grebenkin - are participating in Expedition 71 to conduct a wide range of experiments for six months.
Investigations conducted during Expedition 71 include examining brain organoids to understand neurodegenerative disorders, monitoring how body fluids shift during spaceflight, and scrutinizing the effects of UV radiation and microgravity on plant growth.
CREW 8
Crew-8 is the eighth operational astronaut mission SpaceX has carried out for NASA to the International Space Station.
The four crew members - Matthew Dominick, Michael Barratt, Jeanette Epps, and Alexander Grebenkin - are participating in Expedition 71 to conduct a wide range of experiments for six months.
Investigations conducted during Expedition 71 include examining brain organoids to understand neurodegenerative disorders, monitoring how body fluids shift during spaceflight, and scrutinizing the effects of UV radiation and microgravity on plant growth.
CREW 8
Crew-8 is the eighth operational astronaut mission SpaceX has carried out for NASA to the International Space Station.
The four crew members - Matthew Dominick, Michael Barratt, Jeanette Epps, and Alexander Grebenkin - are participating in Expedition 71 to conduct a wide range of experiments for six months.
Investigations conducted during Expedition 71 include examining brain organoids to understand neurodegenerative disorders, monitoring how body fluids shift during spaceflight, and scrutinizing the effects of UV radiation and microgravity on plant growth.