China upgrades spacecraft r1 inch rubber braceletseentry and descent technologyGet Your Logo To The Customer"s Office With Hand Phone Holder Stress Balls Kids all around country are attending their last few weeks of summer camp. Whether the theme included a sleep away camp full of outdoor activities or even athletic type camp where skills were learned, typical is sure. Summer camps are loved by children of any age. In fact, they become residence away from your home for the weeks and months may spend time at them. Have you ever picked up a pen that glides smoothly or writes by using these ease that you want support keep it independently? How about a pen that feels so comfortable to maintain that would like to to keep on writing? Appear at the ink on the paper it is clear and razor sharp. These are the pores and skin pens that you want opt for from to represent your company.
BEIJING - China has successfully tested its new space program"s reentry and descent technology, which makes landing heavier spacecraft possible.
Current spacecraft landing methods such as parachute and airbag landings can not satisfy the deceleration needs of heavier manned spacecraft reentry missions, according to China Aerospace Science and Technology Corporation (CASC).
The CASC successfully conducted three experiments, involving upgraded parachute and airbag landing techniques as well as the inflatable reentry and descent technology (IRDT).
It published the test results on its website earlier this week.
The upgraded parachutes proved reliable with strong structure and performance and can be used to slow down a spacecraft at the initial stage of reentry.
According to the test results, the upgraded airbag landing technology uses high-impact materials to cover spacecrafts during landing and can increase the current deceleration capacity.
IRDT is a brand new integrated inflatable heat insulating deceleration system that CASC has deployed in experiments.
Future recoverable capsules based on IRDT technology can land spacecraft without heat shields and parachutes.
IRDT-based recoverable capsules will be able to provide buffer and protection to spacecraft when landing while inflating air bags which cover the spacecraft.
The technology will be used in deep space exploration and the quick return of space stations, scientific experiment satellites and space freight, said the CASC.