Joseph Barbe Léonard Danly
Born(1839-03-19)19 March 1839
Marcinelle, Belgium
Died1899
NationalityBelgian
OccupationEngineer

Joseph Barbe Léonard Danly (19 March 1839 – 1899) was a Belgian engineer and businessperson. The operator of a forge in Aiseau, Belgium, in the 1880s he patented a construction system for prefabricated iron buildings known as the Danly system. Considered to be highly sophisticated in comparison with other prefabricated iron building systems of that era,[1] the Danly system was originally intended for use in the colony of Belgian Congo, but was also extensively used in other African colonies as well as in Latin America.[2]

Life and career

Joseph Barbe Léonard Danly was born in Marcinelle on 19 March 1839. He attended the University of Liège, earning a degree in mining engineering.[3] In 1863, together with his brother Louis, a banker, Joseph bought a forge located in Aiseau and developed it into a manufacturing facility for the production of railway equipment.[4][3] After Louis's death in 1883, Joseph decided to embark on a new, more profitable activity, and took advantage of the presence of stamping and galvanizing workshops in the forge to experiment with the production of prefabricated iron buildings.[3]

In July 1885 Joseph was granted in Belgium his first patent, titled La construction de bâtiments en tôles embouties ("The Construction of Buildings in Stamped Sheet Metal"). Later that same year, he founded the Societé Annonyme des Forges d'Aiseau, a public limited company, and took part with his patent in the Antwerp International Exposition, where he exhibited a project for mobile iron ambulance huts in a competition held by the International Committee of the Red Cross, winning second place.[3][4] The huts Joseph Danly showcased at the Antwerp fair had a simple design and were made of iron panels with edges folded at 90 degrees, mounted together without a supporting frame.[3] Joseph soon realized the necessity to upgrade his system to allow for the construction of larger, taller buildings, and in 1887 he was granted an improvement patent, describing what we know today as the Danly system.[4]

The iron church of Boma, second capital of the Congo Free State, in a period postcard. The structure was inaugurated on 19 April 1891.[5]

Several factors were contributing to the growing interest for prefabricated metal buildings in the final decades of the 19th century. Above all, the gold rushes in North America and Australia, soon followed by the colonial expansion in Africa and Asia, prompted a demand for construction materials that could be easily transported across long distances and through arduous terrain. Moreover, the tropical climate of most European colonies required building materials that could withstand rot, insect and rodent damage, and fire.[6] Iron soon became widely appreciated for its fire-retardant and damp-proof properties, strength, and durability.[7]

Joseph intended his improved building system to be employed in the newly established Congo Free State,[1] where it was in fact used to construct, among other structures, the first church of Boma.[5] However, his prefabricated iron buildings were also extensively sold to other European colonial administrations (see, for example, the Casa de Ferro, acquired by the Portuguese government by order of the Governor-general of Portuguese Mozambique and erected in Maputo) or to privates (for instance, see the Casa de Fierro, bought by the Bolivian explorer and entrepreneur Antonio Vaca Diez and assembled in Iquitos, Peru).

After the 1887 improvement patent, another identical patent was issued in France. It was operated by the Société des forges et fonderies d'Hautmont (Nord), which had a manufacturing license for the production and distribution of buildings constructed with the Danly system in France and in its colonies.[4] However, the Hautmont company ultimately produced a negligible quantity of buildings compared to the much more successful Societé Annonyme des Forges d'Aiseau.[3] Joseph Danly died in 1899, and his son Albert Marie Joseph Danly (1867 – 1908) continued to operate the factory.[4] However, financial difficulties soon arose, and the company ceased to exist in 1906.[3][8]

The Danly system

Detail of the exterior of Villa Ker ar Bruck in Crozon, France, constructed with the Danly system.

Buildings constructed according to the Danly system featured a wrought iron structure, with cast iron connecting pieces and thin, galvanized and embossed iron cladding panels. The panels had edges folded at 90 degrees with holes for the bolts, and featured convex geometrical designs serving both decorative and structural functions.[1] The wrought iron structural frame, introduced with the 1887 improvement patent, allowed for the erection of elaborate and complex buildings, often two stories tall; smaller, single-story buildings featured a relatively lighter frame, made of small vertical T-beams.[8]

The improvement patent also introduced a series of building features aimed at providing ventilation in the face of the warm, humid climate of the Congo Basin. The iron panels were mounted both on the inside and on the outside of the frame, leaving a clear internal space and thus allowing air to circulate freely within the exterior walls; internal ventilation was further ensured by holes pierced on the interior panels close to the ceilings and to the floors, as well as by numerous windows.[9] A partial exception to this were the structures constructed by the Société des forges et fonderies d'Hautmont, which often had the interior layer of the building envelope made of wood or bricks instead of metal.[8]

Buildings constructed with the Danly system featured a metal roof, often elaborate in design, which was made of metal sheets bolted to an iron frame; however, the patents contain no description of the frame itself.[8] No foundations were needed for houses built with the Danly system, as the lightweight structures were simply mounted on top of an iron frame laid upon the ground.[9]

Upon order, individual buildings were manufactured and then mounted in Aiseau, before being dismantled and shipped to destination.[5] Structures constructed with the Danly system were advertised as quick to assemble and disassemble without the need for specialized workers.[4] Indeed, in colonial contexts the assembly of those buildings was often carried out by local labourers under the supervision of one or two technicians sent from Aiseau, as was the case for the church of Boma.[5]

The Danly system, regarded as highly sophisticated in comparison with other prefabricated iron building systems of that era,[1] was widely employed in the Congo Free State,[3][8] but had considerable success also in other African colonies, such as Portuguese Mozambique,[10] as well as in Latin America, where it was extensively employed in countries such as Chile, Peru, Brazil, El Salvador, Costa Rica, and Mexico.[2]

Buildings constructed with the Danly system

Unless otherwise indicated, the date refers to the completion of the final assembly of the structure.

France

Africa

  • Cathedral of San Jose, Malabo, Equatorial Guinea (1890; dismantled in 1930)[13]
  • Church of Boma, Democratic Republic of the Congo (1891; partially reassembled in its present location in 1952)[5]
  • Casa de Ferro, Maputo, Mozambique (1892; reassembled in its present location in 1966)[14]
  • Residence of the Governor-General, Boma, Democratic Republic of the Congo (year unknown)[3]

Latin America

Brazil

  • Bananal Railway Station, Bananal (1889)[15]
  • São João public market, São Paulo (1890; reassembled in a new location circa 1914; dismantled circa 1924)[4]
  • Chalet in the Belém campus of the Federal University of Pará, Belém (1893)[16]
  • Armazém 15 (port warehouse), Manaus (year unknown)[17]
  • Chalé do Bosque, Belém (year unknown; reassembled in its present location in 1985)[18]
  • Chalet of the Imprensa Oficial do Estado do Pará, Belém (year unknown; dismantled in 1987, with pieces stored at the Federal University of Pará campus)[19]

Other countries

  • Church of Guayacán, Chile (1889)[20]
  • Casa de Fierro, Iquitos, Peru (1890)
  • Villa Julia, Caracas, Venezuela (1892)[21]
  • Palacio de Hierro, Orizaba, Mexico (1894)[22]
  • Escuela Buenaventura Corrales, San Jose, Costa Rica (1896)[23]
  • Chapel of the Hospital Nacional Rosales, San Salvador, El Salvador (1900)[20]
  • Hospital Nacional Rosales, San Salvador, El Salvador (1902)[24]
  • Hospicio de Huérfanos, San Salvador, El Salvador (year unknown)[25]

See also

References

  1. 1 2 3 4 Guedes 1979, p. 272.
  2. 1 2 D'Alpoim Guedes 2010, p. 16.
  3. 1 2 3 4 5 6 7 8 9 Société des Forges d'Aiseau. BE-monumen. Retrieved August 25, 2023.
  4. 1 2 3 4 5 6 7 Danly, Albert Marie Joseph (1867 - 1908). Patrimônio belga no Brasil. Retrieved August 25, 2023.
  5. 1 2 3 4 5 Ernoult 1998, p. 122.
  6. Ernoult 1998, p. 118.
  7. Morgan's British Trade Journal and Export Price Current, Vol. 18. London. 1880. pp. 13–14.{{cite book}}: CS1 maint: location missing publisher (link)
  8. 1 2 3 4 5 6 Braham, Marc (February 2020), "Les maisons en fer françaises. Deux constructeurs éclairés", La Gazette du Patrimoine (in French), archived from the original on 28 May 2023, retrieved 30 August 2023
  9. 1 2 Maw & Dredge 1889, p. 472.
  10. De Noronha 1895, p. 108.
  11. 1 2 3 4 5 6 7 Braham, Marc and Carré, Guillaume (April 2015). Les "maisons" du système Danly Archived 21 September 2017 at the Wayback Machine. maisons-metalliques-francaises.org. Retrieved August 30, 2023.
  12. Visite AJP à l’abbaye de Clairmont et à l’ancienne fonderie de Port-Brillet en Mayenne. Journalistes du Patrimoine. Retrieved August 31, 2023.
  13. Ernoult 1998, p. 119.
  14. Carlo, Anne-Lise (9 August 2019), "Au Mozambique, la mystérieuse maison de fer attribuée à Gustave Eiffel", Le Monde (in French), archived from the original on 10 August 2019, retrieved 29 August 2023
  15. Estação ferroviária Bananal. Patrimônio belga no Brasil. Retrieved August 29, 2023.
  16. O Chalé da UFPA (Belém). Patrimônio belga no Brasil. Retrieved August 29, 2023.
  17. Armazém 15 (Manaus). Patrimônio belga no Brasil. Retrieved August 29, 2023.
  18. O Chalé do Bosque (Belém). Patrimônio belga no Brasil. Retrieved August 29, 2023.
  19. Palácios 2015, pp. 13, 15–16.
  20. 1 2 Wibaut 2021, p. 327.
  21. Villa Julia. Caracas from the valley to the sea. An Architecture guide and Landscape. Retrieved August 31, 2023.
  22. Vassallo 2017, p. 406.
  23. "La historia del conocido Edificio Metálico: Las Escuelas Graduadas", La Nación (in Spanish), 15 January 2017, archived from the original on 12 November 2017, retrieved 31 August 2023
  24. Chávez, Carlos (18 May 2008), "El hospital de hierro", laprensagráfica.com (in Spanish), archived from the original on 28 June 2008, retrieved 31 August 2023
  25. Cortez, Menly (10 March 2018), "Fotos: El tesoro arquitectónico forjado en hierro del centro de San Salvador", elsalvador.com (in Spanish), archived from the original on 31 August 2023, retrieved 31 August 2023

Cited literature

  • D'Alpoim Guedes, Pedro Paulo (2010). Iron in Building: 1750-1855 – Innovation and Cultural Resistance (PhD).
  • De Noronha, Eduardo (1895). O districto de Lourenço Marques e a Africa do Sul (in Portuguese). Lisbon: Imprensa Nacional.
  • Ernoult, Jean (November 1998). "Les églises en fer de Boma et Fernan-Vaz". Mémoire Spiritaine (in French). 8 (8): 115–132.
  • Vassallo, Roberta (2017). "La arquitectura del hierro en México: el principio de la modernidad". In Galicia Isasmendi, E.; Quiles García, F.; Ruiz Romero (eds.). Acervo Mexicano. Legado de culturas (in Spanish). Lima–Puebla (Mexico)–Sevilla: Acer-VOS. Patrimonio Cultural Iberoamericano. pp. 390–409.
  • Guedes, Pedro, ed. (1979). The Macmillan Encyclopedia of Architecture and Technological Change. London: Reference International Publishers. ISBN 1349046973.
  • Maw, W.H.; Dredge, J., eds. (1889). Engineering, Vol. 47. London: Offices for Advertisements and Publications.
  • Palácios, Flávia Olegário (2015). Dos minerais aos materiais de arquitetura e processos de degradação: edifícios e ornamentos metálicos dos séculos XIX e XX em Belém do Pará (PhD) (in Portuguese).
  • Wibaut, Romain (2021). Hidden innovation. Roof Frame Design and Construction in Parish Churches of Brussels and Charleroi, 1830 – 1940 (PhD). Brussels University Press.
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