Nov 5, 2021
What kind of space suit will we need to go back to the moon? How long does it take to make a space suit? Why are space suits white? What’s the first thing that could kill you in space? (It’s not what you think). Dan Klopp’s division at ILC Dover has been making space suits for NASA for over 50 years, so he’s perfectly positioned to provide us with a space suit tutorial in this episode of Casual Space!
About Dan Klopp : Dan Klopp is a business leader with an extensive background in technology and strategic marketing. Dan is currently the Director Of Marketing And Business Development Space Systems Division at ILC Dover
Dan holds a BS in Physics (with
minors in Chemistry and Mathematics) from Millersville State
University, along with an MBA from Duke University’s Fuqua School
of Business. Additionally, he has done post graduate work in
marketing theory at the University of Pennsylvania’s Wharton School
of Business. Dan has worked in marketing, product development and
business leadership positions for
Hewlett Packard Co., W.L. Gore and Associates,
and Thermo Fisher Scientific. He has also served as an adjunct
professor of business and marketing for several universities. Dan
Klopp resides with his wife in Milton,
DE.
Find
Dan on LinkedIn: https://www.linkedin.com/in/danklopp/
About ILC
Dover : ILC Dover: https://www.ilcdover.com/aerospace/
; Instagram: @ilcdover.astrospace
THIS IS GREAT INFORMATION about Space Suite Technology and Spinoffs: https://spinoff.nasa.gov/Spinoff2005/ch_1.html
Here’s just a part of the article:
Originating Technology/NASA Contribution
Space is a hostile environment where astronauts combat extreme temperatures, dangerous radiation, and a near-breathless vacuum. Life support in these unforgiving circumstances is crucial and complex, and failure is not an option for the devices meant to keep astronauts safe in an environment that presents constant opposition. A space suit must meet stringent requirements for life support. The suit has to be made of durable material to withstand the impact of space debris and protect against radiation. It must provide essential oxygen, pressure, heating, and cooling while retaining mobility and dexterity. It is not a simple article of clothing but rather a complex modern armor that the space explorers must don if they are to continue exploring the heavens.
Partnership
In 1947, before people successfully left the Earth’s atmosphere, ILC Dover, Inc., of Frederica, Delaware, the governmental supply branch of the International Latex Corporation, was manufacturing high-strength rubber rafts for U.S. Navy Seals. This product proved the basis for a succession of increasingly complex projects in the high-strength textile market. In the next decade, the company’s production of pressurized textiles brought it into the realm of creating pressurized flight suits and helmets for American U-2 spy plane pilots, who flew in extreme altitudes. ILC Dover’s success with pressurized flight suits led to its bidding and winning the space\ suit contract for the Apollo mission in 1965 with its AX5L suit—a modified, pressurized suit with woven restraints, air bladders, and wrist cuffs that still is used by astronauts today.
Since the early Apollo contract, ILC Dover, in conjunction with Hamilton Standard, of Windsor Locks, Connecticut, has designed and produced space suits for NASA. These suits have flown on every mission, and ILC Dover maintains a staff of 15 full-time employees at the Johnson Space Center dedicated to fitting, assembling, and repairing the space suits for the entire astronaut corps.
ILC Dover’s partnership with NASA to create the space suits resulted in mastery of life-critical applications, quality workmanship, and testing for high reliability and safety in extreme conditions, as well as the repeated analysis of processes and inspection. ILC used these skills and the NASA-honed expertise to create a handful of spinoffs, including work in the medical, pharmaceutical, personal protection, and aerospace markets.
NASA also called upon ILC Dover’s skills recently, providing the company’s engineers the opportunity to spin some of their technical talents back into the Space Program. They designed and manufactured the Mars landing space inflatables for the Pathfinder and Mars Explorer Rover (MER) Missions. These large airbags cushioned the drop onto the surface of the Red Planet. In addition, they manufactured the landing ramps and continue to provide suits to support the construction of the International Space Station.