Editing Pykrete (section)

==History==

===During World War II===
[[Geoffrey Pyke]] managed to convince [[Louis Mountbatten, 1st Earl Mountbatten of Burma|Lord Mountbatten]] of the potential of his proposal (actually prior to the invention of pykrete) sometime around 1942, and trials were made at two locations in [[Alberta]], Canada. The idea for a ship made of ice impressed the United States and Canada enough that a {{convert|60|ft|m|adj=mid|-long}}, 1,000-ton ship was built in one month on [[Patricia Lake (Alberta)|Patricia Lake]] in the [[Canadian Rockies]]. However, it was constructed using plain ice (from the lake), before pykrete was proposed. It took slightly more than an entire summer to melt, but plain ice proved to be too weak. Pyke learned from a report by [[Herman Francis Mark|Herman Mark]] and his assistant that ice made from water mixed with wood fibres formed a strong solid mass&mdash;much stronger than pure water ice. [[Max Perutz]] later recalled:

{{quote|
Then, one day, Pyke handed me a report that he said he found hard to understand. It was by Herman Mark, my former professor of physical chemistry in Vienna, who had lost his post there when the Nazis overran Austria and found a haven at the Polytechnic Institute of Brooklyn. As an expert on plastics, he knew that many of them were brittle when pure, but could be toughened by embedding fibres such as [[cellulose]] in them, just as [[concrete]] can be [[Reinforced concrete|reinforced]] with steel wires. Mark and his assistant, Walter P. Hohenstein, stirred a little cotton wool or wood pulp&mdash;the raw material of newsprint&mdash;into water before they froze it, and found that these additions strengthened the ice dramatically.

When I had read their report, I advised my superiors to scrap our experiments with pure ice and set up a laboratory for the manufacture and testing of reinforced ice. Combined Operations requisitioned a large meat store five floors underground beneath Smithfield Market, which lies within sight of St. Paul's Cathedral, and ordered some electrically heated suits, of the type issued to airmen, to keep us warm at less than {{convert|0|°C|°F|abbr=on}} temperatures. They detailed some young commandos to work as my technicians, and I invited Kenneth Pascoe, who was then a physics student and later became a lecturer in engineering at Cambridge, to come and help me. We built a big wind tunnel to freeze the mush of wet wood pulp and sawed the reinforced ice into blocks. Our tests soon confirmed Mark and Hohenstein's results. Blocks of ice containing as little as four percent wood pulp were weight for weight as strong as concrete; in honor of the originator of the project, we called this reinforced ice "pykrete". When we fired a rifle bullet into an upright block of pure ice two feet square and one foot thick, the block shattered; in pykrete the bullet made a little crater and was embedded without doing any damage.  My stock rose, but no one would tell me what pykrete was needed for, except that it was for [[Project Habakkuk]].|source=''I Wish I'd Made You Angry Earlier''<ref name = "Perutz p83 ">Perutz, 2002, p. 83.</ref> |author=Perutz, Max}}

Perutz would later learn that Project Habakkuk was the plan to build an enormous aircraft carrier, actually more of a [[Very large floating structure|floating island]] than a ship in the traditional sense. The experiments of Perutz and his collaborators in [[Smithfield, London|Smithfield Meat Market]] in the [[City of London]] took place in great secrecy behind a screen of animal carcasses.<ref>{{cite journal |last=Gratzer |first=Walter |title=Max Perutz (1914–2002) |journal=Current Biology |volume=12 |issue=5 |pages=R152–R154 |date=2002-03-05 |doi=10.1016/S0960-9822(02)00727-3 |s2cid=30263181 |doi-access=free }}</ref><ref>{{cite journal |last=Ramaseshan |first=S |title=Max Perutz (1914–2002) |journal=Current Science |volume=82 |pages=586–590 |date=2002-03-10 |publisher=Indian Academy of Sciences |issn=0011-3891 |hdl=2289/728 |issue=5}}</ref><ref>{{cite journal |last=Collins |first=Paul |title=The Floating Island |journal=Cabinet Magazine |issue=7 |year=2002 |url=http://www.cabinetmagazine.org/issues/7/floatingisland.php |access-date=2008-01-12}}</ref>  The tests confirmed that pykrete is much stronger than pure ice and does not shatter, but also that it sags under its own weight at temperatures higher than {{convert|-15|C|F}}.<ref name="Max Perutz OM">{{cite news |title=Max Perutz OM |work=The Daily Telegraph |date=2002-02-07 |url=https://www.telegraph.co.uk/news/main.jhtml?xml=/news/2002/02/07/db0701.xml |access-date=2008-01-12}}{{dead link|date=July 2021|bot=medic}}{{cbignore|bot=medic}}</ref>

Mountbatten's reaction to the breakthrough is recorded by Pyke's [[biographer]] David Lampe:
{{quote|What happened next was explained several years after the war by Lord Mountbatten in a widely-quoted after-dinner speech. "I was sent to [[Chequers]] to see the Prime Minister and was told he was in his bath. I said, 'Good, that's exactly where I want him to be.' I nipped up the stairs and called out to him, 'I have a block of a new material which I would like to put in your bath.' After that, he suggested that I should take it to the Quebec Conference."

The demonstration in Churchill's steaming bath had been most dramatic. After the outer film of ice on the small pykrete cube had melted, the freshly exposed wood pulp kept the remainder of the block from thawing.|source=''Pyke, the Unknown Genius''<ref>Lampe, 1959, p. 136.</ref> |author=Lampe, David}}

Another tale is that at the [[Quebec Conference, 1943|Quebec Conference]] of 1943, Mountbatten brought a block of pykrete along to demonstrate its potential to the entourage of admirals and generals who had come along with [[Winston Churchill]] and [[Franklin Delano Roosevelt|Franklin D. Roosevelt]]. Mountbatten entered the project meeting with two blocks and placed them on the ground. One was a normal ice block and the other was pykrete. He then drew his service pistol and shot at the first block. It shattered and splintered. Next, he fired at the pykrete to give an idea of the resistance of that kind of ice to projectiles. The bullet ricocheted off the block, grazing the trouser leg of Admiral [[Ernest King]] and ending up in the wall. According to Perutz's own account, however, the incident of a ricochetting bullet hitting an Admiral actually happened much earlier in London and the gun was fired by someone on the project&mdash;not Mountbatten.<ref>Perutz, 2002</ref>

Despite these tests, the main Project Habakkuk was never put into action because of limitations in funds and the belief that the tides of the war were beginning to turn in favour of the Allies using more conventional methods.<ref name=perutz48 >{{cite journal |last=Perutz |first=M.F. |year=1948 |title=A Description of the Iceberg Aircraft Carrier and the Bearing of the Mechanical Properties of Frozen Wood Pulp upon Some Problems of Glacier Flow |journal=The Journal of Glaciology |volume=1 |issue=3 |pages=95&ndash;104|doi=10.1017/S0022143000007796 |bibcode=1948JGlac...1...95P |doi-access=free }}</ref>

According to the memoirs of British [[Hastings Ismay, 1st Baron Ismay|General Ismay]]:

{{quote|A good deal of consideration, much of it highly technical, was also given to the feasibility of building floating platforms which could either be used by fighters to support opposed landings until such time as airfields ashore were available, or act as staging points for ferrying aircraft over long distances. The idea as originally conceived by a member of Combined Operations staff, and vehemently supported by Mountbatten, was that these floating platforms should be constructed out of icebergs. They would be provided with engines which would enable them to steam at slow speed, and with refrigeration plants to prevent them melting. They would be unsinkable. The whole thing seemed completely fantastic, but the idea was not abandoned without a great deal of investigation. Various alternative methods of construction were then considered by the United States naval authorities, but in the end there was general agreement that carriers and auxiliary carriers would serve the same purpose more effectively.|''The Memoirs of Lord Ismay''<ref>Ismay 1960, p. 319.</ref> |author=General Lord Ismay}}

===After World War II===
[[File:Ice Dome - foto Bart van Overbeeke 28453.jpg|thumb|Construction of a pykrete-reinforced ice dome by [[Eindhoven University of Technology]]]]
[[File:Ice Dome - foto Bart van Overbeeke 28484.jpg|thumb|Daytime view of the ice dome]]
Since World War II, pykrete has remained a scientific curiosity, unexploited by research or construction of any significance. However, new concepts for pykrete crop up occasionally among architects, engineers and [[futurist]]s, usually regarding its potential for mammoth offshore construction or its improvement by applying super-strong materials such as synthetic [[Composite material|composites]] or [[Kevlar]].

In 1985, pykrete was considered for a [[quay]] in [[Oslo]] harbour. However, the idea was later shelved, considering pykrete's unreliability in the real-world environment.<ref>{{cite news |title=A New Chip Off an Old Block |first=Paul |last=Breeze |work=The Guardian |date=1985-08-01 |page=13}}</ref> Since pykrete needs to be preserved at or below freezing point, and tends to sag under its own weight at temperatures above {{convert|-15|C|F}}, an alternative was considered that would guarantee effectiveness and public safety.<ref name="Max Perutz OM"/>

In 2011, the [[Vienna University of Technology]] successfully built a pykrete ice dome, measuring {{convert|10|m}} in diameter in the Austrian village of [[Obergurgl]]. They improved on an original Japanese technique of spraying ice on a balloon by using the natural properties of ice and its strength. This structure managed to stand for three months before sunlight started melting the ice, rendering the structure unreliable.<ref name="livescience.com">{{cite web |url=http://www.livescience.com/11704-austria-imbibe-ice-dome.html |title=In Austria, Imbibe in the New Ice Dome |website=[[Live Science]] |date=2 February 2011 |access-date=18 March 2018}}</ref> Researcher Johann Kollegger of [[Vienna University of Technology]] thinks his team's alternative new method is easier, avoiding icy sprayback onto the workers. To build their freestanding structure, Kollegger and his colleagues first cut an {{convert|8|in|adj=on}} plate of ice into 16 segments. To sculpt the segments to have a dome-like curve, the researchers relied on ice's [[Creep (deformation)|creep]] behavior. If pressure is applied to ice, it slowly changes its shape without breaking. One of the mechanisms by which glaciers move, called glacial creep, functions similarly, the researchers say.<ref name="livescience.com"/>

In 2014, the [[Eindhoven University of Technology]] worked on a pykrete architecture project in [[Juuka]], Finland, which included an ice dome and a pykrete scale model of the [[Sagrada Família|Sagrada Familia]].<ref>{{Cite web |url=http://www.structuralice.com/sagrada-familia-in-ice.html |title=Sagrada Familia in ice |access-date=18 October 2014 |website=structuralice.com |archive-url=https://web.archive.org/web/20140908011733/http://www.structuralice.com/sagrada-familia-in-ice.html |archive-date=8 September 2014 |url-status=dead }}</ref> They attempted to build the largest ice dome in the world. Due to human error, the plug to a compressor that kept the balloon inflated was pulled, leading to the balloon deflating. The team of Dutch students quickly re-inflated the balloon, and resprayed the part of the dome that had collapsed. They continued with their construction, and eventually opened the dome to the public. However within a matter of days the roof caved in; there were no visitors on the site at the time.<ref>{{cite web |url=http://yle.fi/uutiset/maailman_suurimman_jaakupolin_katosta_romahti_pala_juuassa/7056718 |title=Maailman suurimman jääkupolin katosta romahti pala Juuassa |website=Yle Uutiset |date=28 January 2014 |language=fi|trans-title=A piece of ice collapsed from the roof of the world's largest ice cap|access-date=18 March 2018}}</ref>