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Post and Beam Barn

Timber-frame barn in Shiner, TX.

Szachulcowy budynek Wierzbięcice Poznań

Red brick timberframe building in Poznań, Poland

Timber framing Tréguier Brittany

Timberframe in Tréguier (Brittany)

File:Newportguildhall2.jpg

Timber framing (German: Fachwerk, literally "framework"), or half-timbering, is the method of creating structures utilizing heavy timbers jointed via pegged mortise and tenon joints.

In architectural terminology it can be defined as:

a latice of panels filled with a non-load bearing material or "nogging" of brick, clay or plaster, the frame is often exposed on the outside of the building[1]

Naming Edit

One of the first people to use the term half-timbered was Mary Martha Sherwood (1775–1851), who employed it in her book The Lady of the Manor, published in several volumes from 1823-1829. She uses the term picturesquely:

passing through a gate in a quickset hedge, we arrived at the porch of an old half-timbered cottage, where an aged man and woman received us.

Perversely, Sherwood does not use it equally for all timber-framed buildings, for elsewhere she writes:

an old cottage, half hid by the pool-dam, built with timber, painted black, and with white stucco, and altogether presenting a ruinous and forlorn appearance.

By 1842, the term "half-timbered" had found its way into The Encyclopedia of Architecture by Joseph Gwilt (1784–1863).

StructureEdit

Timber frame

The completed frame of a modern timber-frame house

DoubleJettiedBuilding

Projecting ("jettied") upper storeys of an English half-timbered village terraced house, the jetties plainly visible

L-Fachwerkwand

Illustration of timber framing from the Lexikon der gesamten Technik (1904)

Timber framing is the method of creating framed structures of heavy timber jointed together with various joints, but most commonly originally via lap jointing, and then later pegged mortise and tenon joints. Lengthening scarf joints. Diagonal bracing is used to prevent "racking", or movement of structural vertical beams or posts.[2]

Originally, German (and other) master carpenter would peg the joints with allowance of approximately an inch, enough room for the wood to move as it seasoned, then cut the pegs and drive the beam home fully into its socket.

To cope with variable sizes and shapes of hewn (via adze or axe) and sawn timbers, two main carpentry methods were employed: scribe carpentry and square rule carpentry.

Scribing was used throughout Europe, especially from the 12th century to the 19th century and subsequently imported to North America where it was common into the early 19th century. In a scribe frame, timber sockets are fashioned or "tailor-made" to fit its corresponding timber- thus each timber piece must be numbered (or "scribed").

Square-rule carpentry was developed in New England in the 18th century. It used housed joints in main timbers to allow for interchangeable braces and girts. Today, standardised timber sizing mean that timber framing can be treated incorporated into mass-production methods as per the joinery industry, especially where timber is cut by precision CNC machinery.

To finish the walls, the spaces or (German: Fächer) between the timbers were often infilled with wattle and daub, loam, brick, or rubble. Plastered faces on the exterior and interior were often “ceiled” with wainscoting for insulation and warmth.

This juxtaposition of exposed timbered beams and infilled spaces created the distinctive "half-timbered", or occasionally termed "Tudor" style.

JettiesEdit

A jetty is an upper floor which requires a structural cantilevered horizontal beam called a jetty bressummer to bear the weight of the new wall, projecting outward from the preceding floor or storey. In an era where houses were taxed with respect to ground-floor area (square footage) extensive jettying was employed to create higher storeys of greater area.

In the city of York in the UK, the famous street known as The Shambles exemplifies this, where jettied houses seem to almost touch above the street.

TimbersEdit

Historically, the timbers would have been hewn square using a felling axe and then surface finished with a broad axe. If required, smaller timbers were ripsawn from the hewn baulks using pitsaws or frame saws. Today it is more common for timbers to be bandsawn, and the timbers may sometimes be machine planed on all four sides.

The vertical timbers include
The horizontal timbers include
  • sill-beams (also called ground-sills or sole-pieces, at the bottom of a wall into which posts and studs are fitted using tenons),
  • noggin-pieces (the horizontal timbers forming the tops and bottoms of the frames of infill-panels),
  • wall-plates (at the top of timber-framed walls that support the trusses and joists of the roof).

When jettying, horizontal elements can include:

  • the jetty bressummer (or breastsummer): the main sill (horizontal piece) on which the projecting wall above rests and which stretches across the whole width of the jetty wall. The bressummer is itself cantilevered forward, beyond the wall below it.
  • the dragon-beam which runs diagonally from one corner to another, and supports the corner posts above and supported by the corner posts below.
  • the jetty beams or joists which conform floor dimensions above but are at right angles to the jetty-plates that conform to the shorter dimensions of "roof" of the floor below. Jetty beams are morticed at 45° into the sides of the dragon beams. They are the main constituents of the cantilever system and determine how far the jetty projects
  • the jetty-plates, designed to carry the jetty beams. The jetty plates themselves are supported by the corner posts of the recessed floor below.
The sloping timbers include
  • trusses (the slanting timbers forming the triangular framework at gables and roof),
  • braces (slanting beams giving extra support between horizontal or vertical members of the timber frame),
  • herringbone bracing (a decorative and supporting style of frame, usually at 45 ° to the upright and horizontal directions of the frame).

Modern featuresEdit

Timber frame detail

Porch of a modern timber-framed house

Post and Beam Barn Kitchen

Interior of a modern hand hewn post and beam home.

In the United States and Canada, timber-frame construction has been revived since the 1970s and is now experiencing a thriving renaissance of the ancient skills. This is largely due to practitioners as Steve Chappell, Jack Sobon, and Tedd Benson, who studied old plans and techniques and revived a long-neglected technique. Once a hand-crafted skill passed down, timber-frame construction has now been modernized with the help of modern industrial tools such as the CNC machines. These machines and mass-production techniques have assisted growth and for more affordable frames and shorter lead-times for projects.

Timber-framed structures differ from conventional wood-framed buildings in several ways. Timber framing uses fewer, larger wooden members, commonly timbers in the range of 15 to 30 cm (6" to 12"), while common wood framing uses many more timbers with dimensions usually in the 5 to 25 cm (2" to 10") range. The methods of fastening the frame members also differ. In conventional framing, the members are joined using nails or other mechanical fasteners, whereas timber framing uses the traditional mortice and tenon or more complex joints that are usually fastened using only wooden pegs. joinery descriptives Modern complex structures and timber trusses often incorporate steel joinery such as gusset plates, for both structural and architectural purposes.

Recently, it has become common practice to entirely surround the timber structure in manufactured panels, such as SIPs (Structural Insulated Panels). This method has benefits: the timbers can only be seen from inside the building, but is less complex to build and provides more efficient insulation. Structural Insulated Panels are commonly two rigid composite materials usually wood-based like OSB or plywood with a foamed insulation material innard, between either gluing billets as in EPS (Expanded Polystyrene) or formed in place with foaming polyurethane. Another advantage is less of a dependency on extraneous bracing & auxiliary members, minor joists and rafters, as the panels can span considerable distances and add greater rigidity to the basic timber frame.

Huf Haus in Scotland

A Huf Haus near West Linton in Scotland

An alternate construction method is via concrete flooring with extensive use of glass. This allows a very solid construction combined with open architecture. Some firms have specialized in industrial prefabrication of such residential and light commercial structures such as Huf Haus as Low-energy houses or - dependent on location - Zero-energy buildings.

Straw-bale construction is another alternative where straw bales are stacked for non-load bearing infill with various finishes applied to the interior and exterior such as stucco and plaster. This appeals to the traditionalist and the environmentalist as this is using "found" materials to build.

History and traditionsEdit

Anne Hvides Gaard Svendborg

Anne Hvides Gaard, Svendborg, Denmark, from 1560

The techniques used in timber framing date back to Neolithic times, and have been used in many parts of the world during various periods such as ancient Japan, continental Europe as well as Neolithic Denmark, England, France, Germany parts of the Roman Empire and Scotland[3].

Half-timbered construction in the Northern European vernacular building style is characteristic of medieval and early modern Denmark, England, Germany and parts of France and Switzerland where timber was in good supply yet stone and associated skills to dress the stone work it were in short supply. In half-timbered construction timbers that were riven in half provided the complete skeletal framing of the building.

Some Roman carpentry preserved in anoxic layers of clay at Romano-British villa sites demonstrate that sophisticated Roman carpentry had all the necessary techniques for this construction. The earliest surviving (French) half-timbered buildings date from the 12th century.

English traditionEdit

Half-timbered tudor buildings, High Holborn

Timber-framed shops in Holborn, London

Some of the earliest known timber houses in Europe have been found in Scotland and England, dating to Neolithic times; Balbridie and Fengate are some of the rare examples of these constructions.

Molded plaster ornamentation, pargetting further enriched some English Tudor architecture houses. Half-timbering is characteristic of English vernacular architecture in East Anglia, Warwickshire, Worcestershire, Herefordshire, Shropshire[1], and Cheshire, where one of the most elaborate surviving English examples of half-timbered construction is Little Moreton Hall.

In South Yorkshire, the oldest timber house in Sheffield, the "Bishops' House" c.1500, shows traditional half-timbered construction.

In the Weald of Kent and Sussex, the half-timbered structure of the Wealden hall house[4], consisted of an open hall with bays on either side and often jettied upper floors.

Half-timbered construction traveled with British colonists to North America in the early 17th century but was soon abandoned in New England and the mid-Atlantic colonies for clapboard facings (another tradition of East Anglia).

Many of the surviving streets lined with almost touching houses are known as The Shambles and are very popular tourist attractions.

French traditionEdit

Coupesarte-14-manoir-1

Coupesarte Manor (Normandy, France)

Elaborately half-timbered houses of the 13th; 14th; 15th; 16th; 17th and 18th century still remain in Bourges, Troyes, Rouen, Thiers, and many other cities, except in Provence and Corsica. Timber framing in French is known colloquially as pan de bois or technically: colombage.

The Normandy tradition features two techniques: frameworks were built of four evenly-spaced regularly hewn timbers set into the ground (poteau en terre) or into a continuous wooden sill (poteau du sole) and mortised at the top into the plate. The openings were filled with many materials including mud and straw, wattle and daub, or horsehair and gypsum.[5]

German tradition or FachwerkhäuserEdit

The greatest extant half-timbered structures exist in Germany. Many small towns of majority or entirety of half-timbered houses exist have escaped war damage and modernization.

Some more prominent towns (among many) include: Hanau-Steinheim (the city of the brothers Grimm); Bad Urach; Eppingen "Romance city" with a half-timbered church dating from 1320; Mosbach; Vaihingen ad Enz with a UNCESCO-listed Celtic abbey and monastery; Schorndorf (birthplace of Gottlieb Daimler and perhaps most importantly: Calw which has over 200 17th century half-timbered houses and Biberach an der Riß with the both the largest medieval complex, the Holy Spirit Hospital and the oldest Southern German building, now the Museum of Weavers, dated to 1318. This best exampled by the "fachwerkhauser Strasse" or Timber-Frame Road tour.[6][7]

German fachwerk buildings are the most varied with a huge multitude of carpentry techniques which have become highly regionalised to be specific per region. Current extensive German planning laws for buildings and regional architectural character preservation dictate that half-timbered house must be constructed authentic to regional or even city specific design or permission is not given.[8][9] A brief overview of styles follows, as a full inclusion of all styles is impossible.

In general, the northern states have fachwerk near identical to the geographically close to Holland and England and the more southern, where there was greater forest reserves, most notably Bavaria and Switzerland have the greatest decoration and inclusion of woods.

German foundations near universally use stone-work or brick-work sills, some half-wall height, for the framework to mortise into or rarely irregular wooden sills. The three main forms may divided geographically:

  • Lower Germany or Alemannic & Franconian:
    • In Franconian timber-work houses (particularly in Central Rhine and Moselle): the windows most commonly lie between the rails of the sills and lintels.
  • Central Germany (also very similar style to Poland):
    • In Saxony and around the Haartz foothills, angle braces often form fully extended triangles.
    • Lower Saxon houses have a joist per every post.
    • Holstein fachwerk houses are famed for their enormous 12 inch (30 cm) beams.
  • Southern Germany including Black and Bohemian Forests
    • In Swabia, Württemburg, Alsace and Switzerland- the use of the lap-join is thought to be the earliest method of connecting the wall plates and tie beams and is particularly identified with Swabia. Use of tenons was a later innovation- builders left timbers season and held in place by wooden pegs, an inch or two out of intended position, which were then driven home when fully seasoned was also pioneered in Swabia.

The most characteristic feature is the spacing between the posts and high placement of windows. Panels are enclosed by sill, post and plate are crossed by two rails, between which the windows are placed- like "two eyes peeing out".[10][11]

In addition there is a myriad of regional scrollwork and fretwork of non-loadbearing large timbers (braces) peculiar to particularly wealthy towns or cities.

The German Framework Road[12] (Deutsche Fachwerkstraße) is a tourist route that links cities with picturesque half-timbered buildings. It is more than 2000 km long and stretches across the states of Lower Saxony, Saxony-Anhalt, Hesse, Thuringia, Bavaria and Baden-Württemberg.

NetherlandsEdit

The Netherlands is often overlooked for its timbered houses, yet many exist including windmills. It was in North Holland where the importation of cheaper timber combined with the Dutch innovation of widespread windmill-powered sawmills allowed economically viable widespread use of protective wood covering over framework. In the late 1600s the Dutch introduced vertical cladding also known in Eastern England as clasp board and in western England as weatherboard, then as more wood was available more cheaply, horizontal cladding in the 17th century. Perhaps due to economic considerations, vertical cladding returned to fashion.[13].

AmericasEdit

Most "haft-timbered" houses existing in Missouri, Pennsylvania (the Amish are actually German) and Texas were built by German settlers[14]. Many are still present in in Santa Catarina and Rio Grande do Sul, Brazil, where Germans settled in the Southern Brazilian states. Later, they chose more suitable building materials for local conditions (most likely from huge problem of topical termites.)

Canadian traditionEdit

Called colombage pierroté in Quebec as well other areas of Canada, was half-timbered construction with in-filled stone and rubble. The style had its origins in Normandy and was brought to Canada by very early Norman settlers. The Men's House at Lower Fort Garry is a good example of colombage pierroté. The walls of such buildings were often covered over with clapboards to protect the infill from erosion. Naturally, this required frequent maintenance and the style was abandoned as a building method in the 18th Century in Québec. For the same reasons, half-timbering in New England, which was originally employed by the English settlers, fell out of favour soon after the colonies had become established

Consequently this gave rise to the poteaux sur solle style in which wood is used both for the frame and infill; for this reason it may be incorrect to call it "half-timbering". This technique proved better suited to the harsh climates of Québec and Acadia, which at the same time had abundant wood. It became very popular throughout New France, as far afield as southern Louisiana.

Nevertheless, despite the rising preference for poteaux sur solle, the colombage pierroté technique survived well into the 19th Century in the Prairies, being employed by French-Canadian carpenters at outposts of the Hudson's Bay Company, as well as on the Red River Colony.

Revival styles in later centuriesEdit

Saitta House Dyker Heights

The Saitta House, Dyker Heights, Brooklyn, New York built in 1899 has half-timber decoration.[15]

When half-timbering regained popularity in Britain after 1860 in the various revival styles, such as the Queen Anne style houses by Richard Norman Shaw and others, it was often used to evoke a "Tudor" atmosphere (see Tudorbethan), though in Tudor times half-timbering had begun to look rustic and was increasingly limited to villages houses (illustration, above left).

In 1912, Allen W. Jackson published The Half-Timber House: Its Origin, Design, Modern Plan, and Construction, and rambling half-timbered beach houses appeared on dune-front properties in Rhode Island or under palm-lined drives of Beverly Hills. During the 1920s increasingly minimal gestures towards some half-timbering in commercial speculative house-building saw the fashion diminish.

In the revival styles, such as Tudorbethan (Mock Tudor), the half-timbered appearance is superimposed on the brickwork or other material as an outside decorative façade rather than forming the main frame that supports the structure.

AdvantagesEdit

The use of timber framing in buildings offers various aesthetic and structural benefits, as the timber frame lends itself to open plan designs and allows for complete enclosure in effective insulation for energy efficiency.

In modern construction timber-frame structure offers many benefits:

  • it is rapidly erected
  • it lends itself well to prefabrication, modular construction and mass-production.
  • lends well to pre-fitting the frame usually in bent or wall-sections that are aligned with jig. This allows greater rapidity in erection on site and more precise alignments. Such pre-fitting in the shop is independent of a machine or hand-cut production line. Valley and hip timbers are not typically pre-fitted.
  • an "average"-sized timber-frame home can be erected within 2–3 days.
  • the frame can be encased with SIPs for the drying in: that is, ready for windows, mechanical systems, and roofing.
  • can be tailored to suit customer tastes and creativity such as carvings or incorporation of heirloom structures such as barns etc.
  • can use recycle otherwise discarded timbers

In North America, heavy timber construction is classified Building Code Type IV: a special class reserved for timber framing which recognizes the inherent fire resistance of large timber and its ability to retain structural capacity in fire situations. In many cases this classification can eliminate the need and expense of fire sprinklers in public buildings.[16]

DisadvantagesEdit

Traditional or Historic structuresEdit

In terms of the traditional half-timber or fachwerkhaus there are possibly more disadvantages than advantages. Such houses are notoriously expensive to maintain let alone renovate and restore, most commonly due to local regulations that do not allow divergence from the original, modification or incorporation of modern materials. Additionally, in such nations as Germany where energy efficiency is highly regulated, the renovated building may be required to meet modern energy efficiencies, if it is to be used as a residential or commercial structure (museums and significant historic buildings have no semi-permanent habitation are exempt). Many framework houses of significance are treated merely to preserve, rather than render inhabitable- most especially as the required massive insecticidal fumigation is highly poisonous.

In some cases, it is more economical to build anew using authentic techniques and correct period materials than restore. One major problem with older structures is the phenomenon known as mechano-sorptive creep or basically slanting: where wood beams absorb moisture whilst under compression or tension strains and deform, shift position or both. This is a major structural issue as the house may deviate several degrees from perpendicular to its foundations (in the x-axis, y-axis and even z-axis) and thus be unsafe and unstable or so out of square it is extremely costly to remedy.[17]

A summary of Fachwerkhäuser or "half-timber" houses include the following, though many can be avoided by intelligent design and application of suitable paints and surface treatments and routine maintenance. Often, though when dealing with a structure of a century or more old, it is too late.[18]

  • "slanting"- thermo-mechanical (weather-seasonally induced) and mechano-sorptive (moisture induced) creep of wood in tension and compression[19].
  • poor prevention of capillary movement of water within any exposed timber, leading to afore-described creep, or rot
  • eaves that are too narrow or non-existent (thus allowing total exposure to rain and snow)
  • too much exterior detailing that does not allow adequate rain-water run-off
  • timber ends, joints and corners poorly protected through coatings, shape or position
  • non-bevelled vertical beams (posts and clapboards) allow water absorption and retention via capillary action.
  • surface point or coatings allowed to deteriorate
  • traditional gypsum, or wattle and daub containing organic materials (animal hair, straw, manure) which then decompose.
  • in both porteaux en terre and porteaux du sole" insect, fungus or bacterial decomposition.
  • rot including dry rot.
  • infestation of xylophagous (wood-consuming) pest organisms such as (very common in Europe) the Anobiidae family particularly the common furniture beetle, termites, cockroaches powderpost beetles, mice and rats (quite famously so in many children's stories).
  • Noise from footsteps in adjacent rooms above, below, and on the same floor in such buildings can be quite audible.
  • Other fungi that are non-destructive to the wood, but are harmful to humans such as black mold. These fungi may also thrive on many "modern" building materials.

Often resolved with built-up floor systems involving clever sound-isolation and absorption techniques, and at the same time providing passage space for plumbing, wiring and even heating and cooling equipment.

  • Wood burns more readily than some other materials, making timber-frame buildings somewhat more susceptible to fire damage, although this idea is not universally accepted: Since the cross-sectional dimensions of many structural members exceed 15 cm × 15 cm (6" × 6"), timber-frame structures benefit from the unique properties of large timbers, which char on the outside forming an insulated layer that protects the rest of the beam from burning.[20][21]
  • prior flood or soil subsidence damage
  • Many older timber-frame buildings, especially those built before the 1950s, are more vulnerable to damage during an earthquake. Many design improvements were made in the latter half of the 20th century that improve the earthquake resistance of this type of structure.[citation needed]

See alsoEdit

ReferencesEdit

  1. Nikolas Davies, Erkki Jokiniemi: 2008. Dictionary of architecture and building construction. Architectural Press, 2008. ISBN 978-0-7506-8502-3. 726 pages: pp 181
  2. Nortrud G. Schrammel-Schäl, Karl Kessler, Paul-Georg Custodis, Kreisverwaltung des Westerwaldkreises in Montabaur. Fachwerk im Westerwald: Landschaftsmuseum Westerwald, Hachenburg, Ausstellung vom 11. September 1987 bis 30. April 1988. Landschaftsmuseum Westerwald: 1987. ISBN 978-3-921548-37-0. 78 pages
  3. J. H. Williams, 1971.Roman Building-Materials in South-East England in Britannia, Vol. 2, (1971), pp. 166-195. Society for the Promotion of Roman Studies. Accessed via jstor.org/stable/525807
  4. Wealden house
  5. Charles Van Ravenswaay: 2006. The arts and architecture of German settlements in Missouri: a survey of a vanishing culture University of Missouri Press: 2006. ISBN 9780826217004. 539 pages
  6. Nortrud G. Schrammel-Schäl, Karl Kessler, Paul-Georg Custodis, Kreisverwaltung des Westerwaldkreises in Montabaur. Fachwerk im Westerwald: Landschaftsmuseum Westerwald, Hachenburg, Ausstellung vom 11. September 1987 bis 30. April 1988. Landschaftsmuseum Westerwald: 1987. ISBN 978-3-921548-37-0. 78 pages
  7. Heinrich Edel: 1928. Die Fachwerkhäuser der Stadt Braunschweig: ein kunst und kulturhistorisches Bild. Druckerei Appelhaus, 1928
  8. Wilhelm Süvern: 1971. Torbögen und Inschriften lippischer Fachwerkhäuser in Volume 7 of Heimatland Lippe. Lippe Heimatbund: 1971. 48 pages
  9. Heinrich Stiewe: 2007. Fachwerkhäuser in Deutschland: Konstruktion, Gestalt und Nutzung vom Mittelalter bis heute. Primus Verlag: 2007. ISBN 9783896785893: 160 pages
  10. Wilhelm Süvern: 1971. Torbögen und Inschriften lippischer Fachwerkhäuser in Volume 7 of Heimatland Lippe. Lippe Heimatbund: 1971. 48 pages
  11. Heinrich Stiewe: 2007. Fachwerkhäuser in Deutschland: Konstruktion, Gestalt und Nutzung vom Mittelalter bis heute. Primus Verlag: 2007. ISBN 9783896785893: 160 pages
  12. German Framework Road
  13. Lars Boström editor 1st International RILEM Symposium on Timber Engineering: Stockholm, Sweden, September 13–14, 1999 Volume 8 of RILEM proceedings RILEM Publications, 1999. ISBN 9782912143105. 838 pages. 317-327.
  14. Charles Van Ravenswaay: 2006. The arts and architecture of German settlements in Missouri: a survey of a vanishing culture University of Missouri Press: 2006. ISBN 9780826217004. 539 pages
  15. Saitta House - Report Part 1”,DykerHeightsCivicAssociation.com
  16. Citation: http://www.tsib.org/pdf/technical/10-101_Building_Codes.pdf
  17. Charlotte Bengtsson: Mechano-sorptive creep of wood in tension and compression: in Lars Boström editor 1st International RILEM Symposium on Timber Engineering: Stockholm, Sweden, September 13–14, 1999 Volume 8 of RILEM proceedings RILEM Publications, 1999. ISBN 9782912143105. 838 pages. 317-327.
  18. Lars Boström editor 1st International RILEM Symposium on Timber Engineering: Stockholm, Sweden, September 13–14, 1999 Volume 8 of RILEM proceedings RILEM Publications, 1999. ISBN 9782912143105. 838 pages. 317-327.
  19. Charlotte Bengtsson: Mechano-sorptive creep of wood in tension and compression: in Lars Boström editor 1st International RILEM Symposium on Timber Engineering: Stockholm, Sweden, September 13–14, 1999 Volume 8 of RILEM proceedings RILEM Publications, 1999. ISBN 9782912143105. 838 pages. 317-327.
  20. "Fire Safety" (PDF). Canadian Wood Council. http://www.cwc.ca/NR/rdonlyres/B80A05FF-77D5-4A7D-B229-4D6434316755/0/BP_2firesafetye.pdf. 
  21. Bailey, Colin. "Timber". Structural Material Behavior in Fire. University of Manchester. http://www.mace.manchester.ac.uk/project/research/structures/strucfire/materialInFire/Timber/. Retrieved 2008-05-04. 
  • Richard Harris, "Discovering Timber-framed Buildings" (3rd rev. ed.), Shire Publications, 1993, ISBN 0-7478-0215-7.

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