Chicago Metallurgical Laboratory
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The Metallurgical Laboratory (or Met Lab) was a scientific laboratory at the University of Chicago that was established in February 1942 to study and use the newly discovered chemical element plutonium. It researched plutonium's chemistry and metallurgy, designed the world's first nuclear reactors to produce it, and developed chemical processes to separate it from other elements. In August 1942 the lab's chemical section was the first to chemically separate a weighable sample of plutonium, and on 2 December 1942, the Met Lab produced the first controlled
nuclear chain reaction In nuclear physics, a nuclear chain reaction occurs when one single nuclear reaction causes an average of one or more subsequent nuclear reactions, thus leading to the possibility of a self-propagating series of these reactions. The specific nu ...
, in the reactor
Chicago Pile-1 Chicago Pile-1 (CP-1) was the world's first artificial nuclear reactor. On 2 December 1942, the first human-made self-sustaining nuclear chain reaction was initiated in CP-1, during an experiment led by Enrico Fermi. The secret development of t ...
, which was constructed under the stands of the university's old
football Football is a family of team sports that involve, to varying degrees, kicking a ball to score a goal. Unqualified, the word ''football'' normally means the form of football that is the most popular where the word is used. Sports commonly c ...
stadium,
Stagg Field Amos Alonzo Stagg Field is the name of two successive football fields for the University of Chicago. Beyond sports, the first Stagg Field (1893–1957) is remembered for its role in a landmark scientific achievement of Enrico Fermi and the Metall ...
. The Metallurgical Laboratory was established as part of the Metallurgical Project, also known as the "Pile" or "X-10" Project, headed by Chicago professor
Arthur H. Compton Arthur Holly Compton (September 10, 1892 – March 15, 1962) was an American physicist who won the Nobel Prize in Physics in 1927 for his 1923 discovery of the Compton effect, which demonstrated the particle nature of electromagnetic radia ...
, a Nobel Prize laureate. In turn, this was part of the Manhattan Project – the
Allied An alliance is a relationship among people, groups, or states that have joined together for mutual benefit or to achieve some common purpose, whether or not explicit agreement has been worked out among them. Members of an alliance are called ...
effort to develop the
atomic bomb A nuclear weapon is an explosive device that derives its destructive force from nuclear reactions, either fission (fission bomb) or a combination of fission and fusion reactions (thermonuclear bomb), producing a nuclear explosion. Both bomb ...
during World War II. The Metallurgical Laboratory was successively led by Richard L. Doan, Samuel K. Allison,
Joyce C. Stearns Joyce Clennam Stearns (June 23, 1893 – June 11, 1948) was an American physicist and an administrator on the Manhattan Project. Stearns resigned from the Manhattan Project in July 1945 to become dean of faculty at Washington University in St. Lou ...
and Farrington Daniels. Scientists who worked there included
Enrico Fermi Enrico Fermi (; 29 September 1901 – 28 November 1954) was an Italian (later naturalized American) physicist and the creator of the world's first nuclear reactor, the Chicago Pile-1. He has been called the "architect of the nuclear age" and ...
, James Franck, Eugene Wigner and Glenn Seaborg. At its peak on 1 July 1944, it had 2,008 staff. Chicago Pile-1 was soon moved by the lab to a more remote site in the Argonne Forest, where its original materials were used to build an improved Chicago Pile-2 to be employed in new research into the products of nuclear fission. Another reactor,
Chicago Pile-3 Chicago Pile-3 (CP-3) was the world's first heavy water reactor. One of the first research reactors, it was built in 1943 near Palos Hills, Illinois, original site of Argonne National Laboratory. Joining CP-1/CP-2, it first went critical on 15 ...
, was built at the Argonne site in early 1944. This was the world's first reactor to use heavy water as a
neutron moderator In nuclear engineering, a neutron moderator is a medium that reduces the speed of fast neutrons, ideally without capturing any, leaving them as thermal neutrons with only minimal (thermal) kinetic energy. These thermal neutrons are immensely mo ...
. It went critical in May 1944, and was first operated at full power in July 1944. The Metallurgical Laboratory also designed the X-10 Graphite Reactor at the Clinton Engineer Works in
Oak Ridge, Tennessee Oak Ridge is a city in Anderson and Roane counties in the eastern part of the U.S. state of Tennessee, about west of downtown Knoxville. Oak Ridge's population was 31,402 at the 2020 census. It is part of the Knoxville Metropolitan Area. Oak ...
, and the B Reactor at the
Hanford Engineer Works The Hanford Engineer Works was a nuclear production complex established by the United States federal government in 1943 as part of the Manhattan Project during World War II. The site, located at the Hanford Site on the Columbia River in Bento ...
in the
state of Washington Washington (), officially the State of Washington, is a state in the Pacific Northwest region of the Western United States. Named for George Washington—the first U.S. president—the state was formed from the western part of the Washington ...
. As well as the work on reactor development, the Metallurgical Laboratory studied the chemistry and metallurgy of plutonium, and worked with
DuPont DuPont de Nemours, Inc., commonly shortened to DuPont, is an American multinational chemical company first formed in 1802 by French-American chemist and industrialist Éleuthère Irénée du Pont de Nemours. The company played a major role in ...
to develop the
bismuth phosphate process The bismuth-phosphate process was used to extract plutonium from irradiated uranium taken from nuclear reactors. It was developed during World War II by Stanley G. Thompson, a chemist working for the Manhattan Project at the University of Califor ...
used to separate plutonium from uranium. When it became certain that nuclear reactors would involve radioactive materials on a gigantic scale, there was considerable concern about the health and safety aspects, and the study of the biological effects of radiation assumed greater importance. It was discovered that plutonium, like radium, was a
bone seeker A bone seeker is an element, often a radioisotope, that tends to accumulate in the bones of humans and other animals when it is introduced into the body. An example is strontium-90, which behaves chemically like calcium and can replace the calcium ...
, making it especially hazardous. The Metallurgical Laboratory became the first of the national laboratories, the
Argonne National Laboratory Argonne National Laboratory is a science and engineering research United States Department of Energy National Labs, national laboratory operated by University of Chicago, UChicago Argonne LLC for the United States Department of Energy. The facil ...
, on 1 July 1946. The work of the Met Lab also led to the creation of the Enrico Fermi Institute and the James Franck Institute at the university.


Origins

The
discovery of nuclear fission Nuclear fission was discovered in December 1938 by chemists Otto Hahn and Fritz Strassmann and physicists Lise Meitner and Otto Robert Frisch. Fission is a nuclear reaction or radioactive decay process in which the nucleus of an atom splits in ...
in uranium by German chemists Otto Hahn and Fritz Strassmann in December 1938, and its theoretical explanation (and naming) by
Lise Meitner Elise Meitner ( , ; 7 November 1878 – 27 October 1968) was an Austrian-Swedish physicist who was one of those responsible for the discovery of the element protactinium and nuclear fission. While working at the Kaiser Wilhelm Institute on rad ...
and
Otto Frisch Otto Robert Frisch FRS (1 October 1904 – 22 September 1979) was an Austrian-born British physicist who worked on nuclear physics. With Lise Meitner he advanced the first theoretical explanation of nuclear fission (coining the term) and first ...
soon after, opened up the possibility that neutrons produced by fission could create a controlled
nuclear chain reaction In nuclear physics, a nuclear chain reaction occurs when one single nuclear reaction causes an average of one or more subsequent nuclear reactions, thus leading to the possibility of a self-propagating series of these reactions. The specific nu ...
. At Columbia University,
Enrico Fermi Enrico Fermi (; 29 September 1901 – 28 November 1954) was an Italian (later naturalized American) physicist and the creator of the world's first nuclear reactor, the Chicago Pile-1. He has been called the "architect of the nuclear age" and ...
and Leo Szilard began exploring how this might be achieved. In August 1939, Szilard drafted a confidential letter to the President of the United States, Franklin D. Roosevelt, warning of the possibility of a German nuclear weapon project, and convinced his old friend and collaborator Albert Einstein to co-sign it. This resulted in support for research into nuclear fission by the U.S. government. In April 1941, the National Defense Research Committee (NDRC), asked
Arthur Compton Arthur Holly Compton (September 10, 1892 – March 15, 1962) was an American physicist who won the Nobel Prize in Physics in 1927 for his 1923 discovery of the Compton effect, which demonstrated the particle nature of electromagnetic radia ...
, a Nobel-Prize-winning physics professor at the University of Chicago, to report on the uranium program. Niels Bohr and John Wheeler theorized that heavy isotopes with odd atomic numbers, such as plutonium-239, were fissile. Emilio Segrè and Glenn Seaborg at the University of California produced 28 μg of plutonium in the 60-inch cyclotron there in May 1941, and found that it had 1.7 times the thermal neutron capture cross section of uranium-235. While minute quantities of plutonium-239 could be created in cyclotrons, it was not feasible to produce a large quantity that way. Compton conferred with Eugene Wigner from Princeton University about how plutonium might be produced in a nuclear reactor, and with Robert Serber from the University of Illinois about how the plutonium produced in a reactor might then be chemically separated from uranium it was bred from. On 20 December, soon after the Japanese attack on Pearl Harbor that brought the United States into the war, Compton was placed in charge of the plutonium project. Its objectives were to produce reactors to convert uranium to plutonium, to find ways to chemically separate the plutonium from the uranium, and to design and build an atomic bomb. Although a successful reactor had not yet been built, the scientists had already produced several different but promising design concepts. It fell to Compton to decide which of these should be pursued. He proposed an ambitious schedule that aimed to achieve a controlled nuclear chain reaction by January 1943, and to have a deliverable atomic bomb by January 1945. Compton felt that having teams at Columbia, Princeton, the University of Chicago and the University of California created too much duplication and not enough collaboration, and he resolved to concentrate the work in one location. Nobody wanted to move, and everybody argued in favor of their own location. In January 1942, soon after the United States entered World War II, Compton decided to concentrate the work at his own location, the University of Chicago, where he knew he had the unstinting support of university administration, whereas Columbia was engaged in uranium enrichment efforts and was hesitant to add another secret project. Other factors contributing to the decision were Chicago's central location and the availability of scientists, technicians and facilities in the
Midwest The Midwestern United States, also referred to as the Midwest or the American Midwest, is one of four Census Bureau Region, census regions of the United States Census Bureau (also known as "Region 2"). It occupies the northern central part of ...
that had not yet been taken away by war work. Housing was more readily available, and an inland city was less vulnerable to enemy attack.


Personnel

The new research establishment was formed in February 1942, and named the "Metallurgical Laboratory" or "Met Lab". Some real metallurgy was carried out, but the name was intended as a cover for its activities. The University of Chicago had been considering establishing a research institute into metals, and indeed would do so after the war, so its creation attracted little attention. Compton's plutonium project then became known as the Metallurgical Project. The Metallurgical Laboratory was administered by the University of Chicago under contract to the Office of Scientific Research and Development (OSRD). Over 5,000 people in 70 research groups participated in Compton's Metallurgical Project, also known as the "Pile" or "X-10" Project, of whom some 2,000 worked in the Metallurgical Laboratory in Chicago. Despite the good salaries being offered, recruiting was difficult. There was competition for scientists and engineers from other defense-related projects, and Chicago was expensive compared with university towns. Norman Hilberry was associate director of the Metallurgical Project, and Richard L. Doan was appointed the Director of the Metallurgical Laboratory. While Doan was an able administrator, he had difficulty being accepted as the head of the laboratory, since he was not an academic. On 5 May 1943, Compton replaced him with Samuel K. Allison, and appointed
Henry D. Smyth Henry DeWolf "Harry" Smyth (; May 1, 1898September 11, 1986) was an American physicist, diplomat, and bureaucrat. He played a number of key roles in the early development of nuclear energy, as a participant in the Manhattan Project, a member o ...
as associate director. Initially there were three physics groups, headed by Allison, Fermi and
Martin D. Whitaker Martin Dewey Whitaker (June 29, 1902 – August 31, 1960) was an American physicist who was the first director of the Clinton Laboratories (now the Oak Ridge National Laboratory) during World War II. He served as President of Lehigh University fro ...
.
Frank Spedding Frank Harold Spedding (22 October 1902 – 15 December 1984) was a Canadian American chemist. He was a renowned expert on rare earth elements, and on extraction of metals from minerals. The uranium extraction process helped make it possible f ...
was in charge of the Chemistry Division. He was later succeeded by Herbert McCoy, and then by James Franck. Compton placed Robert Oppenheimer in charge of the bomb design effort in June 1942. In November 1942, this became a separate project, known as Project Y, which was located in Los Alamos, New Mexico. After the United States Army Corps of Engineers took over the Manhattan Project in August 1942, the Manhattan District coordinated the work. From 17 February 1943, Compton reported to the director of the Manhattan Project, Brigadier General
Leslie R. Groves, Jr. Lieutenant General Leslie Richard Groves Jr. (17 August 1896 – 13 July 1970) was a United States Army Corps of Engineers officer who oversaw the construction of the Pentagon and directed the Manhattan Project, a top secret research project ...
, instead of the OSRD
S-1 Section The S-1 Executive Committee laid the groundwork for the Manhattan Project by initiating and coordinating the early research efforts in the United States, and liaising with the Tube Alloys Project in Britain. In the wake of the discovery of nucle ...
. The Manhattan District assumed full responsibility for the Metallurgical Laboratory contract on 1 May 1943.
Captain Captain is a title, an appellative for the commanding officer of a military unit; the supreme leader of a navy ship, merchant ship, aeroplane, spacecraft, or other vessel; or the commander of a port, fire or police department, election precinct, e ...
J. F. Grafton was appointed the Chicago Area Engineer in August 1942. He was succeeded by Captain Arthur V. Peterson in December 1942. Peterson remained until October 1944. Captain J. F. McKinley became Chicago Area Engineer on 1 July 1945.


Buildings

At first, most of the Laboratory facilities were provided by the University of Chicago. The physicists took over space under the North and West Stands of
Stagg Field Amos Alonzo Stagg Field is the name of two successive football fields for the University of Chicago. Beyond sports, the first Stagg Field (1893–1957) is remembered for its role in a landmark scientific achievement of Enrico Fermi and the Metall ...
and in the Service Building, where there was a cyclotron. The chemists took over the
George Herbert Jones Laboratory The George Herbert Jones Laboratory is an academic building at 5747 S. Ellis Avenue, Chicago, Illinois, on the main campus of the University of Chicago. Room 405 of the building was named a National Historic Landmark in 1967; it was the site wher ...
and the Kent Chemical Laboratory. The health group took space in the Anatomy Building, Drexel House, Billings Hospital and the Killis Laboratory and the administrative offices went into
Eckhart Hall The University of Chicago (UChicago, Chicago, U of C, or UChi) is a private research university in Chicago, Illinois. Its main campus is located in Chicago's Hyde Park neighborhood. The University of Chicago is consistently ranked among the b ...
. Szilard later wrote that "the morale of the scientists could almost be plotted in a graph by counting the number of lights burning after dinner in the offices at Eckhart Hall." When the project outgrew its space in Eckhart Hall, it moved into the nearby Ryerson Hall. The Metallurgical Laboratory eventually occupied of campus space. About $131,000 worth of alterations were made to buildings occupied by the laboratory but the University of Chicago also had to make alterations for users displaced by it. The University of Chicago made a site occupied by tennis courts available to the Manhattan District on a one dollar lease, for the construction of a new chemistry building with of space. Stone and Webster commenced work on this in September 1942 and it was completed in December. It was soon found to be too small and an adjacent plot was added to the lease, on which a annex was built and completed in November 1943. Extensive work was then carried out on the ventilation system to allow the laboratory to work with plutonium more safely. A site containing an ice house and stables owned by the university in Chicago was made available in April 1943. Known as Site B, it was remodeled to provide of laboratories and workshops for the health and metallurgy groups. The 124th Field Artillery Armory was leased from the state of Illinois to provide more space in March 1944 and about of space was leased or built, at a cost of $2 million. For reasons of safety and security, it was not desirable to locate the facilities for experiments with nuclear reactors in densely populated Chicago. Compton selected a site in the Argonne Forest, part of the Forest Preserve District of Cook County, about southwest of central Chicago, referred to as Site A. The War Department leased of land there from Cook County for the duration of the war plus one year for a dollar. Construction of facilities including laboratories and service buildings and an access road was commenced in September 1942 and completed in early 1943. Compton appointed Fermi as the first director of the Argonne Laboratory.


Reactor development


Chicago Pile-1

Between 15 September and 15 November 1942, groups under
Herbert L. Anderson Herbert Lawrence Anderson (May 24, 1914 – July 16, 1988) was an American nuclear physicist who was Professor of Physics at the University of Chicago. He contributed to the Manhattan Project. He was also a member of the team which made the firs ...
and
Walter Zinn Walter Henry Zinn (December 10, 1906 – February 14, 2000) was an American nuclear physicist who was the first director of the Argonne National Laboratory from 1946 to 1956. He worked at the Manhattan Project's Metallurgical Laboratory during W ...
constructed sixteen experimental reactors (known at the time as "piles") under the Stagg Field stands. Fermi designed a new uranium and graphite pile that could be brought to criticality in a controlled, self-sustaining nuclear reaction. Construction at Argonne fell behind schedule due to Stone & Webster's difficulty recruiting enough skilled workers and obtaining the required building materials. This led to an industrial dispute, with union workers taking action over the recruitment of non-union labor. When it became clear that the materials for Fermi's new pile would be on hand before the new structure was completed, Compton approved a proposal from Fermi to build the pile under the stands at Stagg Field. Construction of the reactor, known as
Chicago Pile-1 Chicago Pile-1 (CP-1) was the world's first artificial nuclear reactor. On 2 December 1942, the first human-made self-sustaining nuclear chain reaction was initiated in CP-1, during an experiment led by Enrico Fermi. The secret development of t ...
(CP-1), began on the morning of 16 November 1942. The work was carried out in twelve-hour shifts, with a day shift under Zinn and a night shift under Anderson. When completed, the wooden frame supported an elliptical-shaped structure, high, wide at the ends and across the middle. It contained of uranium metal, of uranium oxide and of graphite, at an estimated cost of $2.7 million. On 2 December 1942, it achieved the first controlled self-sustaining nuclear reaction. On 12 December 1942, CP-1's power output was increased to 200 W, enough to power a light bulb. Lacking shielding of any kind, it was a radiation hazard for everyone in the vicinity. Thereafter, testing was continued at the lower power of 0.5 W.


Chicago Pile-2

The operation of Chicago Pile-1 was terminated on 28 February 1943. It was dismantled and moved to Argonne, where the original materials were used to build Chicago Pile-2 (CP-2). Instead of being spherical, the new reactor was built in a cube-like shape, about tall with a base approximately square. It was surrounded by concrete walls thick that acted as a radiation shield, and with overhead protection from of lead and of wood. More uranium was used, so it contained of uranium and of graphite. No cooling system was provided as it only ran at a few kilowatts. CP-2 became operational in March 1943.


Chicago Pile-3

A second reactor, known as
Chicago Pile-3 Chicago Pile-3 (CP-3) was the world's first heavy water reactor. One of the first research reactors, it was built in 1943 near Palos Hills, Illinois, original site of Argonne National Laboratory. Joining CP-1/CP-2, it first went critical on 15 ...
, or CP-3, was built at the Argonne site in early 1944. This was the world's first reactor to use heavy water as a
neutron moderator In nuclear engineering, a neutron moderator is a medium that reduces the speed of fast neutrons, ideally without capturing any, leaving them as thermal neutrons with only minimal (thermal) kinetic energy. These thermal neutrons are immensely mo ...
. It had been unavailable when CP-1 was built, but was now becoming available in quantity thanks to the Manhattan Project's
P-9 Project The P-9 Project was the codename given during World War II to the Manhattan Project's heavy water production program. The Cominco operation at Trail, British Columbia, was upgraded to produce heavy water. DuPont built three plants in the Unite ...
. The reactor was a large aluminum tank, in diameter, which was filled with heavy water, which weighed about . The cover was pierced by regularly spaced holes through which 121 uranium rods sheathed in aluminum projected into the heavy water. The tank was surrounded by a graphite neutron reflector, which in turn was surrounded by a lead shield, and by concrete. Shielding on the top of the reactor consisted of layers of square removable bricks composed of layers of iron and masonite. The heavy water was cooled with a water-cooled heat exchanger. As well as the control rods, there was an emergency mechanism for dumping the heavy water into a tank below. Construction began on 1 January 1944. The reactor went critical in May 1944, and was first operated at full power of 300 kW in July 1944. During the war Zinn allowed it to be run around the clock, and its design made it easy to conduct experiments. This included tests to investigate the properties of isotopes such as tritium and determine the neutron capture cross section of elements and compounds that might be used to construct future reactors, or occur in impurities. They were also used for trials of instrumentation, and in experiments to determine thermal stability of materials, and to train operators.


Production piles

The design of the reactors for plutonium production involved several problems, not just in nuclear physics but in engineering and construction. Issues such as the long-term effect of radiation on materials received considerable attention from the Metallurgical Laboratory. Two types of reactors were considered: homogeneous, in which the moderator and fuel were mixed together, and heterogeneous, in which the moderator and fuel were arranged in a lattice configuration. By late 1941, mathematical analysis had shown that the lattice design had advantages over the homogeneous type, and so it was chosen for CP-1, and for the later production reactors as well. For a neutron moderator, graphite was chosen on the basis of its availability compared with beryllium or heavy water. The decision of what coolant to use attracted more debate. The Metallurgical laboratory's first choice was helium, because it could be both a coolant and a neutron moderator. The difficulties of its use were not overlooked. Large quantities would be required, and it would have to be very pure, with no neutron-absorbing impurities. Special blowers would be required to circulate the gas through the reactor, and the problem of leakage of radioactive gases would have to be solved. None of these problems were regarded as insurmountable. The decision to use helium was conveyed to
DuPont DuPont de Nemours, Inc., commonly shortened to DuPont, is an American multinational chemical company first formed in 1802 by French-American chemist and industrialist Éleuthère Irénée du Pont de Nemours. The company played a major role in ...
, the company responsible for building the production reactors, and was initially accepted. In early 1943, Wigner and his Theoretical Group that included
Alvin Weinberg Alvin Martin Weinberg (; April 20, 1915 – October 18, 2006) was an American nuclear physicist who was the administrator at Oak Ridge National Laboratory (ORNL) during and after the Manhattan Project. He came to Oak Ridge, Tennessee, in 1945 ...
,
Katharine Way Katharine "Kay" Way (February 20, 1902 – December 9, 1995) was an American physicist best known for her work on the Nuclear Data Project. During World War II, she worked for the Manhattan Project at the Metallurgical Laboratory in Chicago. She ...
, Leo Ohlinger, Gale Young and
Edward Creutz Edward Creutz (January 23, 1913 – June 27, 2009) was an American physicist who worked on the Manhattan Project at the Metallurgical Laboratory and the Los Alamos Laboratory during World War II. After the war he became a professor of p ...
produced a design for a production reactor with water cooling. The choice of water as a coolant was controversial, as it was known to absorb neutrons, thereby reducing the efficiency of the reactor, but Wigner was confident that his group's calculations were correct and that with the purer graphite and uranium that was now available, water would work, while the technical difficulties involved in using helium as a coolant would delay the project. The design used a thin layer of aluminum to protect the uranium from corrosion by the cooling water. Cylindrical uranium slugs with aluminum jackets would be pushed through channels through the reactor and drop out the other side into a cooling pond. Once the radioactivity subsided, the slugs would be taken away and the plutonium extracted. After reviewing the two designs, the DuPont engineers chose the water-cooled one. In 1959 a patent for the reactor design would be issued in the name of Creutz, Ohlinger, Weinberg, Wigner, and Young. The use of water as a coolant raised the problem of corrosion and oxidation of the aluminum tubing. The Metallurgical Laboratory tested various additives to the water to determine their effect. It was found that corrosion was minimized when the water was slightly acidic, so dilute
sulfuric acid Sulfuric acid (American spelling and the preferred IUPAC name) or sulphuric acid ( Commonwealth spelling), known in antiquity as oil of vitriol, is a mineral acid composed of the elements sulfur, oxygen and hydrogen, with the molecular formu ...
was added to the water to give it a pH of 6.5. Other additives such as
sodium silicate Sodium silicate is a generic name for chemical compounds with the formula or ·, such as sodium metasilicate , sodium orthosilicate , and sodium pyrosilicate . The anions are often polymeric. These compounds are generally colorless transparent ...
, sodium dichromate and
oxalic acid Oxalic acid is an organic acid with the systematic name ethanedioic acid and formula . It is the simplest dicarboxylic acid. It is a white crystalline solid that forms a colorless solution in water. Its name comes from the fact that early inve ...
were also introduced to the water to prevent a build up of film that could inhibit the circulation of the cooling water. The fuel slugs were given a jacket of aluminum to protect the uranium metal from corrosion that would occur if it came into contact with the water, and to prevent the venting of gaseous radioactive
fission products Nuclear fission products are the atomic fragments left after a large atomic nucleus undergoes nuclear fission. Typically, a large nucleus like that of uranium fissions by splitting into two smaller nuclei, along with a few neutrons, the release ...
that might be formed when they were irradiated. Aluminum was chosen because the cladding had to transmit heat but not absorb too many neutrons. The aluminum canning process was given close attention, as ruptured slugs could jam or damage the channels in the reactor, and the smallest holes could vent radioactive gases. The Metallurgical Laboratory investigated production and testing regimes for the canning process. An important area of research concerned the Wigner effect. Under bombardment by neutrons, the carbon atoms in the graphite moderator can be knocked out of the graphite's crystalline structure. Over time, this causes the graphite to heat and swell. Investigation of the problem would take most of 1946 before a fix was found.


Chemistry and metallurgy

Metallurgical work concentrated on uranium and plutonium. Although it had been discovered over a century before, little was known about uranium, as evidenced by the fact that many references gave a figure for its melting point that was off by nearly 500 °F (280 °C). Edward Creutz investigated it and discovered that at the right temperature range, uranium could be hammered and rolled, and drawn into the rods required by the production reactor design. It was found that when uranium was cut, the shavings would burst into flame. Working with
Alcoa Alcoa Corporation (an acronym for Aluminum Company of America) is a Pittsburgh-based industrial corporation. It is the world's eighth-largest producer of aluminum. Alcoa conducts operations in 10 countries. Alcoa is a major producer of primary ...
and General Electric, the Metallurgical Laboratory devised a method of soldering the aluminum jacket to the uranium slug. Under pressure to identify a source of processed uranium, in April 1942 Compton, Spedding and Hilberry met with Edward Mallinckrodt at his chemical company's headquarters in St. Louis, Missouri. The company devised and implemented a novel uranium processing technique using ether, submitted successful test materials by mid-May, supplied the material for the first self-sustaining reaction in December, and had satisfied the project's entire order of the first sixty tons before the contract was signed. The metallurgy of plutonium was completely unknown, for it had only recently been discovered. In August 1942, Seaborg's team chemically isolated the first weighable amount of plutonium from uranium irradiated in the Jones Laboratory. Until reactors became available, minuscule amounts of plutonium were produced in the cyclotron at Washington University in St. Louis. The chemistry division worked with DuPont to develop the
bismuth phosphate process The bismuth-phosphate process was used to extract plutonium from irradiated uranium taken from nuclear reactors. It was developed during World War II by Stanley G. Thompson, a chemist working for the Manhattan Project at the University of Califor ...
used to separate plutonium from uranium.


Health and safety

The dangers of radiation poisoning had become well known due to the experience of the
radium dial painters The Radium Girls were female factory workers who contracted radiation poisoning from painting watch dials with self-luminous paint. The incidents occurred at three different factories: one in Orange, New Jersey, beginning around 1917; one in Ott ...
. When it became certain that nuclear reactors would involve radioactive materials on a gigantic scale, there was considerable concern about the health and safety aspects. Robert S. Stone, who had worked with Ernest Lawrence at the University of California, was recruited to head the Metallurgical Project's health and safety program. Simeon Cutler, a radiologist, assumed responsibility for radiation safety in Chicago, before moving on to head the program at the Hanford Site. Groves appointed
Stafford L. Warren Stafford Leak Warren (July 19, 1896 - July 26, 1981) was an American physician and radiologist who was a pioneer in the field of nuclear medicine and best known for his invention of the mammogram. Warren developed the technique of producing ster ...
from the University of Rochester as head of the Manhattan Project's Medical Section. Over time, the study of the biological effects of radiation assumed greater importance. It was discovered that plutonium, like radium, was a
bone seeker A bone seeker is an element, often a radioisotope, that tends to accumulate in the bones of humans and other animals when it is introduced into the body. An example is strontium-90, which behaves chemically like calcium and can replace the calcium ...
, making it especially hazardous. The Metallurgical Laboratory's Health Division set standards for radiation exposure. Workers were routinely tested at University of Chicago clinics, but this could be too late. Personal quartz fiber dosimeters were procured, as were film badge dosimeters, which recorded cumulative dosage. Stone's Health Division worked closely with William P. Jesse's Instrumentation Group in the Physics Division to develop detectors, including portable
Geiger counter A Geiger counter (also known as a Geiger–Müller counter) is an electronic instrument used for detecting and measuring ionizing radiation. It is widely used in applications such as radiation dosimetry, radiological protection, experimental ph ...
s. Herbert M. Parker created a metric for radiation exposure he called the
roentgen equivalent man The roentgen equivalent man (rem) is a CGS unit of equivalent dose, effective dose, and committed dose, which are dose measures used to estimate potential health effects of low levels of ionizing radiation on the human body. Quantities measure ...
or rem. After the war, this replaced the roentgen as the standard measure of radiation exposure. Work to assess the toxicity of plutonium got under way when the plutonium semiworks at the Clinton Engineer Works began producing it in 1943. The project set a limit of 5 micrograms (μg) in the body, and work practices and workplaces at Chicago and Clinton were modified to ensure that this standard was met.


Later activities

During 1943 and 1944, the Metallurgical Laboratory focused on first getting the X-10 Graphite Reactor at the Clinton Engineer Works up and running, and then the B Reactor at the Hanford Site. By the end of 1944, the focus had switched to training operators. Much of the chemistry division moved to Oak Ridge in October 1943, and many personnel were transferred to other Manhattan Project sites in 1944, particularly Hanford and Los Alamos. Fermi became a division head at Los Alamos in September 1944, and Zinn became the director of the Argonne Laboratory. Allison followed in November 1944, taking with him many of the Metallurgical Laboratory's staff, including most of the instrument section. He was replaced by
Joyce C. Stearns Joyce Clennam Stearns (June 23, 1893 – June 11, 1948) was an American physicist and an administrator on the Manhattan Project. Stearns resigned from the Manhattan Project in July 1945 to become dean of faculty at Washington University in St. Lou ...
. Farrington Daniels, who became associate director on 1 September 1944, succeeded Stearns as director on 1 July 1945. Where possible, the University of Chicago attempted to re-employ workers who had been transferred from the Metallurgical Laboratory to other projects once their work had ended. Replacing staff was nearly impossible, as Groves had ordered a staffing freeze. The only division to grow between November 1944 and March 1945 was the health division; all the rest lost 20 percent or more of their staff. From a peak of 2,008 staff on 1 July 1944, the number of people working at the Metallurgical Laboratory fell to 1,444 on 1 July 1945. The end of the war did not end the flow of departures. Seaborg left on 17 May 1946, taking much of what remained of the chemistry division with him. On 11 February 1946, the Army reached an agreement with University President Robert Hutchins for the staff and equipment of the Metallurgical Project to be taken over by a regional laboratory based at Argonne, which the university still manages. On 1 July 1946, the Metallurgical Laboratory became
Argonne National Laboratory Argonne National Laboratory is a science and engineering research United States Department of Energy National Labs, national laboratory operated by University of Chicago, UChicago Argonne LLC for the United States Department of Energy. The facil ...
, the first designated national laboratory, with Zinn as its first director. The new laboratory had 1,278 staff on 31 December 1946, when the Manhattan Project ended, and responsibility for the national laboratories passed to the Atomic Energy Commission, which replaced the Manhattan Project on 1 January 1947. The work of the Metallurgical Laboratory also led to the founding of the Enrico Fermi Institute, as well as the James Franck Institute, at the University of Chicago. Payments made to the University of Chicago under the original 1 May 1943 non-profit contract totaled $27,933,134.83, which included $647,671.80 in construction and remodeling costs. The contract expired on 30 June 1946, and was replaced by a new contract, which ended on 31 December 1946. A further $2,756,730.54 was paid under this contract, of which $161,636.10 was spent on construction and remodeling. An additional $49,509.83 was paid to the University of Chicago for the restoration of its facilities. In 1974, the United States government began cleaning up the old Manhattan Project sites under the
Formerly Utilized Sites Remedial Action Program The Formerly Utilized Sites Remedial Action Program (FUSRAP) is a United States Army Corps of Engineers (USACE) project to manage and cleanup environmental contamination that resulted from early United States Atomic Energy Commission activities. Cl ...
(FUSRAP). This included those used by the Metallurgical Laboratory. Stagg Field had been demolished in 1957, but 23 locations in Kent Laboratory were decontaminated in 1977, and another 99 at the Eckhart, Ryerson, and the Jones Laboratory in 1984. About of solid and three
55-gallon drum A drum (also called a barrel) is a cylinder (geometry), cylindrical shipping container used for shipping bulk cargo. Drums can be made of steel, dense paperboard (commonly called a fiber drum), or plastic, and are generally used for the transpor ...
s of liquid waste were collected and shipped to various sites for disposal. The Atomic Energy Commission terminated its lease on the Armory site in 1951, and it was restored to the state of Illinois. Testing in 1977, 1978 and 1987 indicated residual levels of radioactivity that exceeded Department of Energy guidelines, so decontamination was carried out in 1988 and 1989, after which the site was declared suitable for unrestricted use.


Notes


References

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External links


Manhattan Project Signature Facilities

Video of west stands of Stagg Field, Institute for the Study of Metals (Metallurgical Laboratory), Enrico Fermi, and an active experiment using CP-1
{{Authority control History of the Manhattan Project Research institutes of the University of Chicago 1943 establishments in Illinois