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WA sheoak

Image showing the tree Allocasuarina fraseriana.
Image showing the wood of Allocasuarina fraseriana.
Allocasuarina fraseriana

WA Sheoak is a medium-sized tree up to 15 m tall and 0.5 to 1 m in diameter at breast height. It occurs in south-west Western Australia in the coastal and hinterland region from Perth in the north to near Albany in the east, where it is an understorey species in the jarrah (E.marginata) forest. There is a small isolated population between Moora and Jurien Bay.

Wood descriptionThis description can include heartwood and sapwood colour, grain, figure.

Heartwood is dark-red to brown, and the sapwood pale yellow. The texture is moderately fine and even, and the medullary rays are prominent as in other members of the genus.

Wood density

Green density is the density of wood in the living tree, defined as green mass divided by green volume, and useful for estimating transport costs. It varies with season and growing conditions.

Air-dry density is the average mass divided by volume at 12 per cent moisture content (this is the average environmental condition in the coastal capital cities around Australia).

Basic density is oven-dry mass divided by green volume. This measure has the advantage that moisture content variations in the tree during the year are avoided.

Green density is about 1000 kg/m3, the air-dry density about 730 kg/m3, and the basic density about 620 kg/m3.

Drying and shrinkageAs wood dries, it shrinks more in the tangential direction (i.e. parallel to the growth rings) than it does in the radial direction (i.e. at right angles to the growth rings). The figures given are shrinkage from green to 12 per cent moisture content, before steam reconditioning treatment, and with some species after stream reconditioning. Reconditioning is essential for recovering collapse which may have occurred during the drying process, and is essential for species such as the ash-type eucalypts of eastern Australia.

Tangential and radial shrinkage before reconditioning are 4.5 and 1.2 per cent respectively, and after reconditioning 1.7 and 1.0 per cent respectively.

WorkabilityWith south-west and plantation-grown trees, comments are made on the comparative ease or difficulty of turning, nailing and bending, on susceptibility to splitting and other working properties. With semi-arid, arid and desert species, a more complex survey was made and reported in Siemon and Kealley (1999). The properties assessed were turning, machinability, boring, screwholding, stability, sanding, gluing and finishing. A semi-quantitative score was used: very poor = 1, poor = 2, average = 3, good = 4, and excellent = 5. This book uses the descriptive terms rather than numbers.

As regards workability, the timber is relatively easy to work.


The CSIRO Durability Classes are based on the performance in ground of outer heartwood when exposed to fungal and termite attack.

ClassLife Years
1More than 25
215 to 25
38 to 15
4Less than 8

The ratings are not relevant to above-ground use. In late 1996, CSIRO published revised ratings, which include termite susceptibility. Ratings are now available for about seventy species for decay, and for decay plus termites.

Durability Class remains a tentative 2, because the species was not included in the CSIRO 1996 revised ratings list. The species provides specialty timber that would not be used in-ground. Sapwood is Lyctus-susceptible.

Strength group and properties

Minimum values (MPa) for strength groups for green and seasoned timber come from Australian Standard AS2878-1986 'Timber - Classification of strength groups'. In grading structural timber, each species is allocated a ranking for green timber of S1 (strongest) to S7, and for seasoned timber SD1 (strongest) to SD8.

MOR is modulus of rupture or bending strength, MOE is modulus of elasticity or 'stiffness', and MCS is maximum crushing strength or compression strength. Hardness refers to the Janka hardness test and is a measure of resistance to indentation.

Minimum values (Mpa) for green timber

Strength Property S1 S2 S3 S4 S5 S6 S7
MOR 103 86 73 62 52 43 36
MOE 16300 14200 12400 10700 9100 7900 6900
MCS 52 43 36 31 26 22 18

Minimum values (Mpa) for green timber

Strength Property SD1 SD2 SD3 SD4 SD5 SD6 SD7 SD8
MOR 150 130 110 94 78 65 55 45
MOE 21500 18500 16000 14000 12500 10500 9100 7900
MCS 80 70 61 54 47 41 36 30

Where test data were available, they are shown in bold print. Most values are from Bootle (1983), Wood in Australia. Types, properties and uses. (McGraw-Hill), or Julius (1906), 'Western Australian timber tests 1906: The physical characteristics of the woods of Western Australia'.

Where no strength data were available, air-dry density was used in accordance with the Australian Standard AS2878-1986 Timber - Classification of strength groups to predict the strength group. Consequently, the strength values quoted are from the above two tables.

The green and dry strength groups are (S5) and SD6. The more important strength properties are given in the table below.

Property Units Green Dry
Modulus of Rupture MPa 52 98
Modulus of Elasticity MPa 9100 9356
Max Crushing Strength MPa 26 41
Hardness KN - -
AvailabilityTimber from many species is available only in limited quantities, from near the areas where the trees grow naturally (or in plantations). There are other species such as red tingle and yellow tingle whose timber is rarely commercially available because the areas of occurrence are predominantly in conservation areas. Other species such as Goldfields timbers are only available in limited quantities because of their scattered occurrence and the fact that the industry is in the early stages of development.

Limited quantities are available in Western Australia.

UsesVarious past and potential uses are given as a general guide, but the list is obviously not conclusive. In particular, there is increasing interest in specialty timbers, and the semi-arid, arid and desert area species have considerable potential for this use.

Uses include furniture (both indoor and outdoor), decorative woodwork and turnery, roofing shingles, flooring and
panelling. Until the advent of the aluminium cask it was a favoured species for beer barrels.