ILC Dover
ILC Dover, LP is an American special engineering development and manufacturing company based in Frederica, Delaware. ILC specializes in the use of high-performance flexible materials, serving the aerospace, personal protection, and pharmaceutical industries.
Best known for making space suits for NASA, ILC outfitted every United States astronaut in the Apollo program, including the twelve that walked on the moon. ILC also designed and manufactured the Space Suit Assembly portion of the Extravehicular Mobility Unit, worn by astronauts during performance of extra-vehicular activity on Space Shuttle missions and on the International Space Station.
Other ILC products include the airbag landing devices for Mars Pathfinder and Mars Exploration Rover missions; lighter-than-air vehicles, including airships, aerostats, and zeppelins; chemical, biological, radiological, and nuclear masks and hood systems; and flexible powder-containment solutions for the pharmaceutical industry.
History
ILC Dover initially formed as a branch of the International Latex Corporation, the company founded in 1932 by Abram Spanel and later known as Playtex best known for manufacture of women's undergarments. The International Latex Corporation supported American efforts in World War II with latex products such as attack boats, life rafts, and canteens. In 1947, the International Latex Corporation split into four divisions, one of which, the Metals Division, eventually became ILC Dover.Located at that time in Dover, Delaware, ILC's earliest work was on high-altitude pressure helmets and high-altitude pressure suits for the U.S Navy and Air Force. In 1965, ILC was awarded the prime contract for the Apollo Lunar Space Suit, based on its unique approach to designing flexible joints in air filled suits. ILC successfully designed and manufactured the suit worn by astronauts in the Apollo program, including Neil Armstrong during the first moonwalk. By 1969, ILC's workforce expanded to 900 employees as it supported the space program through production of Apollo space suits and a sun shield to protect Skylab, the first U.S. space station.
In 1974, the Skylab program ended, and ILC faced an immediate need to diversify their product offerings. That same year, ILC delivered its first aerostat to the U.S. Air Force for use at Cudjoe Key Air Force Station. Subsequently, they entered the field of personal protective equipment, paving the way for development of industrial protection suits, such as the Chemturion Suit line. In later years, their development of protective equipment expanded into type classified military chemical, biological, radiological, and nuclear masks and hood systems. The M40/M42 masks became the standard field mask of the U.S. Army, and, as of 2010, over two million had been produced and sold. Hamilton Standard, of Windsor Locks, CT was contracted to oversee ILC's suit manufacture due to ILC's inexperience with federal government contracts.
In 1977, ILC Dover, in conjunction with Hamilton Standard, began development and manufacture of the Extravehicular Mobility Unit, the suit worn by astronauts during Space Shuttle and Space Station extra-vehicular activity. ILC continued its support of the space program, while expanding its personal protection and lighter-than-air vehicle lines.
In 1994 and 1995, ILC was awarded contracts with the German company Zeppelin Luftschifftechnik GmbH and the American Blimp Corporation for production of envelopes for each company. Over the following decade, ILC's production of LTA vehicles continued, and in 2001, ILC, in collaboration with TCOM and Uretek, developed and manufactured the world's largest pressurized LTA vehicle for CargoLifter in Brand, Germany.
In 1994, NASA's Jet Propulsion Laboratory contracted ILC to develop and manufacture the airbag landing system for the Mars Pathfinder Mission, which successfully cushioned Pathfinder's landing on July 4, 1997. In 2003, ILC's airbag system enabled the safe landing of the twin rovers, Spirit and Opportunity, during the Mars Exploration Rover Missions.
In the 1990s ILC entered the pharmaceutical industry with the design and production of flexible containment systems, used to improve operator safety and ensure product purity during the manufacturing processing of potent pharmaceutical agents.
Space suits
Since the beginning of the Apollo Program, ILC has been the designer and producer of the space suit pressure garment for NASA. Throughout Apollo, Skylab, Space Shuttle, and Space Station missions, the space suit has been required to protect astronauts from hazards faced in earth's orbit and on the surface of the moon. These hazards include the vacuum environment of space, temperature extremes ranging from -250 degrees Fahrenheit to 250 degrees Fahrenheit, the impact of micrometeoroids and orbital debris, and lunar dust. Above the 63,000 foot threshold, spacesuits are needed to supply oxygen and to provide a pressurized environment around the body to keep body fluids in a liquid state.Apollo and Skylab
ILC began delivering spacesuits for the Apollo program in 1966. Initial deliveries of suits did not perform well in tests and NASA initially cancelled its contract with ILC and Hamilton Standard. NASA relaunched the program to develop a spacesuit for the Apollo program experimenting at first with hard suits. ILC and Hamilton Standard submitted competing designs this time with ILC winning the sole contract based on its flexible, close-fitting design which featured water cooled undergarment, a blue inner pressurized layer, and covered in a white nylon layer to protect the suits from rocks. Hamilton received a separate contract for the life support backpack unit. ILC was further challenged after the Apollo 1 fire to remove all flammable material from space suits. After a nationwide search, ILC settled on beta cloth, a fireproof silica fiber cloth. Apollo spacesuits were custom-made for each of the astronauts in the program, and for each of the twelve crewed flights carried out, ILC produced fifteen suits. Three suits were made for each of the three astronauts comprising the crew and two suits were made for each of the three back-up crew members. Twenty extra-vehicular activities were performed during the Apollo program, and ten were performed during Skylab. The Apollo suits were used for a total of 160 hours on the lunar surface.Shuttle
The space suit used for EVA during shuttle missions is the Extravehicular Mobility Unit, which has two parts: the space suit assembly, manufactured by ILC, and the life support system, manufactured by Hamilton Sundstrand. The SSA is made of individual components which are assembled to fit each astronaut. Since the first shuttle EVA in 1983, 216 U.S. astronauts have performed a total of 74 shuttle EVAs, combining for greater than 470 hours in space.International Space Station
The shuttle EMU was improved for use on the International Space Station. The suits for the ISS were modified to provide greater mobility, to afford better tactile capabilities of the glove, and to provide an increased operational life. As of February 2011, a total of 104 EVAs on the ISS had occurred, for greater than 650 total hours in space.Mark III
The Mark III is an experimental suit that was designed by ILC for use on the space station. The suit is a combination of hard and soft elements, designed for pressurization to. Shuttle suits are pressurized to, and astronauts are required to breathe pure oxygen for several hours prior to EVA to remove all dissolved nitrogen from body fluids. Pressurization to would eliminate the need for a lengthy pre-breathing time. The Mk III has since been used in test programs that study space suit operations in the lunar and Mars surface environments.Lunar and Mars suit prototype (I Suit)
The I-Suit is a lightweight experimental suit designed and manufactured by ILC to be used for high-mobility surface operations in gravity, such as on the lunar surface or on the surface of Mars. The I-suit is also being studied for use with next generation NASA launch vehicles and commercial space vehicles.Z-1 Prototype Suit
ILC continues in their space suit innovation with the development of the Z-1 Suit for NASA Designed and manufactured at ILC Dover's Houston facility. The Z-1 is the first suit to be successfully integrated into a suit-port dock mechanism eliminating the need for an air lock; and reducing the consumable demands on long term missions.Lighter than air structures
Since the early 1970s, ILC has been designing and manufacturing softgoods structures for aerostats, airships, blimps, and other lighter-than-air structures. ILC is the world's largest producer of modern aerostat and airship envelopes.Airships and blimps
Airships and blimps are used for a variety of applications including transport and tourism; advertising; and surveillance. ILC's airship products are used by the U.S. military, the American Blimp Corporation, and Zeppelin Luftschifftechnik GmbH.High altitude airships
Since the early 1980s, ILC has been involved in the design and development of high altitude airships. The advent and growth of the cellular phone market renewed interest in the use of high altitude airships as an economical alternative to satellites. In the past decade, ILC has worked with Lockheed Martin to support several US government-funded high-altitude airship programs to define the system for a mobile platform capable of carrying various payloads, including communications and Intelligence, Surveillance, and Reconnaissance sensors.Tethered aerostats
Aerostats are typically utilized as platforms to carry surveillance radars to altitudes reaching while tethered to the ground by a single tether. ILC has manufactured aerostats with volumes ranging from. The length of these aerostats ranges from.Heavy lift airships and balloons
The lift generated by a helium filled LTA vehicle can allow heavy loads to be transported in an economical manner. In the early 1990s, ILC was involved in the design and manufacture of logging balloons, devices used in the northwestern U.S. and western Canada for the purpose of retrieving logs from mountainous areas inaccessible by road.Personal protective equipment
Since the mid-1970s, ILC has designed and produced products for chemical and biological protection. Currently, ILC designs and produces respirators, masks, and suits used to protect against chemical, biological, radiological and nuclear threats. The products are used by U.S. military troops, federal employees, scientists and health care workers.Masks and respirators
ILC produces powered air purifying respirators. These include the Sentinel XL CBRN PAPR, used to protect against CBRN threats; the Sentinel HP PAPR, used to protect against infectious disease; and the Sentinel XT PAPR, used to protect pharmaceutical workers from airborne active pharmaceutical ingredients. They also produce an air purifying escape respirator, the SCape CBRN, and the M40/42 gas mask used by the U.S. military.Protective suits
In the late 1970s, ILC developed a special garment, the Demilitarization Protective Ensemble, to fulfill the U.S. Army's need for an off-the-shelf, positive pressure, totally encapsulating suit for use by maintenance personnel at a chemical weapons site. The DPE was delivered to the Army in 1979 and is still currently in daily use, with over 700 recorded entries into a "hot" environment and a perfect safety record.From the technology used in production of the DPE, ILC developed a protective suit to be used for commercial applications. The Chemturion is a multi-use, totally encapsulating protective suit, currently used by Public Health Canada, Boston University, USAMRIID and AI Signal Research, the Center for Disease Control in Atlanta, and many industrial companies such as DuPont, Dow, and Georgia Pacific.