Lavr Proskouriakov

Lavr Dmitrievich Proskouriakov

Lavr Dmitrievich Proskouriakov (18 August 1858, the village of Borisovka, Voronezh Governorate – 14 September 1926, Moscow) was one of the foremost authorities on bridge engineering and structural mechanics in the Russian empire and the early Soviet Union.

Life and career

Lavr Proskouriakov was born on 18 August 1858, into a large peasant family. In 1884, he graduated from the Saint-Petersburg Institute of Railway Engineers and worked as a designer of bridges. Since 1887, he lectured at the same institute, and starting from 1896, Proskouriakov held the position of Full Professor at Moscow State University of Railway Engineering.

Even the early Proskouriakov's projects of the bridges across the rivers Western Bug (1885) and Sula in the Ukrainian city of Romny (1887) attract attention by their novelty and ingenuity. The drawings of those bridges were published by Professor L.F. Nikolai, the head of the bridge faculty at the Petersburg Institute of Railway Engineers, in his tutorial on bridge design for railway engineers.[1]

In the summer of 1895, Proskouriakov was sent abroad by the decision of the Institute academic council to take part in the International Railway Congress in London, as well as explore local mechanical laboratories and bridges. Besides London, he visited laboratories in Paris, Zurich, Munich, Vienna and Berlin, and then went to the United States in order to get acquainted with the biggest bridge structures and local mechanical laboratories.[1]

Proskouriakov was the first in Europe to reject then existing lattice bridge trusses with lots of vertical and diagonal members, which were extremely difficult for truss analysis. Instead, he designed a statically determinate triangular web truss with the minimum number of diagonals, which provided better distribution of stresses due to moving loads throughout a bridge structure.

The old rail bridge over the Yenisei near Krasnoyarsk
The railway bridge over the Yenisei. A picture of the late 19th - early 20th centuries

The research and practical activities of Lavr Proskouriakov were aimed at the elaboration of a perfect bridge structure. And he managed to achieve his goal: this was the noble 1,000 metres (3,300 ft) long railway bridge across the Yenisei near Krasnoyarsk that was built between 1896 and 1899. The superstructure system of the bridge was composed of six spans. The length of each span was 144.7 metres (475 ft), the height 21.64 metres (71.0 ft), the weight 900 tons.[2] The piers were reinforced by starlings (cutwaters) pointing upstream, to break up ice that floats downstream during the annual spring thaw.

Designing the bridge, Proskouriakov proposed a new constructive solution — an original trussed girder. By using featheredge design for its upper chord (similar to Schwedler truss), Proskouriakov extended the height of the main trusses up to 21.64 metres (71.0 ft). The engineer also utilized the theory of influence lines for truss analysis that enabled more accurate calculation of internal forces in every member in a truss due to moving loads. Since then, the theory of influence lines for truss analysis has been used in engineering both in Russia and around the world. Incidentally, the Yenisei bridge was the first in Russia, during the construction of which the incremental launching method was applied for the first time.

Thanks to its engineering and technical characteristics, the bridge was recognized as the longest in Russia and the second largest in Europe (the first one was in the Netherlands across the Lek River near Kuilenburg). Represented at the Exposition Universelle (1900), the Yenisei bridge's model received the Gold medal, while Proskouriakov himself went on to become one of the country's most prominent engineers. The bridge was subsequently approved by the UNESCO for inclusion in the World Heritage List.

Essentially, the Yenisei bridge opened up a new era in Russian bridge engineering. Proskouriakov's statically determinate trusses with subdivided panels and upward-angled upper chords were subsequently widely used by many other bridge engineers. For example, such a truss system (with a few changeups) was borrowed by Prof. Nikolai Belelyubsky in the design of the rail bridge across the Volga River near Sviyazhsk.

Overall, Proskouriakov managed to elaborate the most suitable types of spans for a variety of bridges. He designed many unique multi-span bridges, including the bridges over Oka near Kashira (1897), Belev (1897) and Murom (1912), Vyatka on the Cherepovets-Vologda-Vyatka line (1902), Volkhov (1902), Amur near Khabarovsk (1916) on the Trans-Siberian Railway, and so forth.

Yevhen Paton compared Proskouriakov's bridges to Pushkin's poems.

In 1903, at the discretion of the Society of the Moscow-Kazan Railway, L.D. Proskouriakov was among other bridge-design professionals, both domestic and foreign, who made a rough sketch for the bridge across the Volga River near Kazan with the largest span of 165 metres (541 ft) long, similar to the Yenisei bridge.

In 1904, Proskouriakov designed the two arched steel double track rail bridges — Andreyevsky and Krasnoluzhsky across the Moscow River for the Moscow Circular Railway. Both twin bridges were located within the city limits, and their graceful appearance fully satisfied the demands, which were imposed to the urban constructions at the time. It is worth noting that these were the Russia's first steel railroad bridges, which had crescent arch spans.[1]

The old railway bridge across the Amur near Khabarovsk

One more important achievement in the bridge engineering of Imperial Russia was the famous Amur rail bridge near Khabarovsk that was also designed by Professor Lavr Proskouriakov. The bridge was constructed as a 2,590 metres (8,500 ft) long steel bridge that carried single rail track. Opened for traffic on 5 October 1916, the bridge marked the completion of construction of Trans-Siberian Railroad.[1]

Similar to the Yenisei bridge, the piers of the Amur bridge had massive buttresses pointing upstream, designed as inclined planes toward the current for the purpose of preventing ice from piling up against the piers. The height of the bridge from the upper deck to the maximum water surface elevation reached 12 metres (39 ft). It allowed larger ships to pass underneath the bridge even at the highest summer water level in the Amur. The bridge cost the Russian treasury more than 13 million roubles — a colossal sum of money for those times.[3]

Proskouriakov was a strong proponent, of the graphical method (or the dummy load method) for truss analysis that was based on the theory of influence lines. In the period 1891-1892, Proskouriakov held the elective course "The Application of Graphical Statics in Civil Engineering Practice". It is particularly remarkable that two years later the course became a core and even mandatory subject in the training programme for railway engineers.

In 1896, when designing the bridge across the Kotorosl River, Proskouriakov for the first time worked out special tables used for the calculation of bearing strength or load-carrying capacity of a bridge during a train passage. Both the theory of influence lines and the tables would greatly facilitate the procedures for truss analysis. Since then, they have been eventually became ingrained in bridge engineering practises around the world.

Education activities

Proskouriakov was also a prominent educator and mentor of youth. He trained many talented scientists and engineers. His colleagues and apprentices, such as E.O.Paton, M.M.Filonenko-Borodich, I.P.Prokofiev, P.A.Velikhov, P.Y.Kamentsev and others, became nationally famous scientists in later times. The educational principles for the engineering mechanics program developed by Prof. Proskouriakov are now widely used by higher education.

In 1902, Proskouriakov published his first volume of structural mechanics that was titled Strength of Materials. Later, in 1907, he also published the second volume, named Structural Statics, as well as his scientific work The Methods for the Analysis of Continuous Truss Bridges. Those works have been included into the golden fund of science. His two-volume handbook went through six editions during his lifetime. The seventh edition was published posthumously, and it has become a textbook for all technical institutes of the country.

See also

References

Notes

  1. 1 2 3 4 ВЫДАЮЩИЙСЯ ИНЖЕНЕР, УЧЕНЫЙ И ПЕДАГОГ (к 150-летию со дня рождения Л.Д. Проскурякова) // Вестник Петербургского государственного университета путей сообщения. - №13 (211). - 2.12.2008. - С.2
  2. Канувший в Лету мост
  3. Амурское чудо - Издательский мост Биробиджан Archived 30 June 2015 at the Wayback Machine.
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