Ash, Crow’s

Crow’s ash is a large hardwood species that is native to northern NSW and parts of Queensland. It is used mainly for flooring, boat building and outdoor furniture.

Other Names

Australian Teak, Flindosy, Nutwood, Colonial Tea

Botanical Name

Flindersia australis

Common Form
Sawn
Species Type

Crow’s ash, also known as Australian teak, is a large hardwood species native to parts of northern New South Wales and Queensland. It grows in the coastal rainforests from northern News South Wales to Gladstone in Queensland and can reach up to 40m in height.

Crow’s ash is slow to dry and surface checking may occur if it is dried too quickly. Its heartwood is golden yellow with a more distinct, paler sapwood. Aside from appearance, Crow’s ash main benefit is that it is a very strong timber.

Crow’s ash is predominately used for flooring and decking. It is also used for boat building and outdoor furniture. In times gone by it was used as flooring for dance halls due to its highly durable characteristics.

While it is visually appealing, this species is not easy to work with, which limits the applications it can be used for. Crow’s ash is quite greasy which means it is hard to glue and nail.

Due to its limited availability, Crow’s ash timber may attract a premium.

 

Shrinkage

Very Low Low Medium High Very High
Check mark Check mark

Tangential : Provides a simplified rating for tangential shrinkage. This is the measure of the percentage reduction in dimension from the unseasoned to 12% moisture content condition.

4.20%

Radial : Radial shrinkage is perpendicular to the growth rings. It is shrinkage in the direction towards the centre of the tree. Measurement is % value

3.30%

Unit Movement Tangential: This is the percentage of dimensional change for each 1% moisture content change between about 3% moisture content and the fibre saturation point for the particular species.

Unit Movement Radial: This is the percentage of dimensional change for each 1% moisture content change between about 3% moisture content and the fibre saturation point for the particular species.

Strength Group Strength groups are given for unseasoned (S1-S7) and seasoned (SD1-SD8) timber in accordance with AS 2878. S1 and SD1 yield the highest strength and stiffness whereas S7 and SD8 yield the lowest.

Very High

High

Reasonably High

Medium High

Medium

Reasonably Low

Low

Very Low

Unseasoned:

S1

S2

S3

S4

S5

S6

S7

S8

Check mark

Seasoned:

SD1

SD2

SD3

SD4

SD5

SD6

SD7

SD8

Check mark

Stress Grade A stress grade is defined in AS 1720 as the classification of timber for structural purposes by means of either visual or machine grading. The stress grade indicates the basic working stresses and stiffnesses to be used for structural design purposes. Measured in MPa.

Structural
No. 1
Structural
No. 2
Structural
No. 3
Structural
No. 4
Structural
No. 5

Unseasoned:

F27

F17

F14

F11

F8

Seasoned:

F27

F22

F17

F14

F11

Density per Standard Seasoned density is based on moisture content of 12%. Unseasoned density is an approximation as it depends on the moisture content at the time of measurement. Measured kg/m3.

Seasoned:

950kg/m3

Unseasoned:

1050kg/m3

Joint Group The joint group is a classification of the strength of a species in joint design. The values are from 1 (very high strength) to 6 (very low strength).

Very High

High

Reasonably High

Medium

Low

Very Low

Unseasoned:

J1

J2

J3

J4

J5

J6

Check mark

Seasoned:

JD1

JD2

JD3

JD4

JD5

JD6

Check mark

Colour The colour of seasoned heartwood can vary between species and often within a species. The information provided should be used as a general guide only. In most cases, the colour of sapwood is either a lighter shade of the heartwood or a white/cream colour.

  White, yellow, pale straw to light brown Pink to pink brown Light to dark red Brown, chocolate, mottled or streaky
   
Check mark

Mechanical Properties

Modulus of Rupture - Unseasoned: This property is a measure of maximum stress which timber can momentarily sustain when loaded slowly and continuously as a beam. Measured in MPa.

110

Modulus of Rupture - Seasoned: This property is a measure of maximum stress which timber can momentarily sustain when loaded slowly and continuously as a beam. Measured in MPa.

137

Modulus of Elasticity - Unseasoned: This property is of importance in determining the deflection of a beam under load — the greater the stiffness, the less the deflection. Measured in GPa.

15.6

Modulus of Elasticity - Seasoned: This property is of importance in determining the deflection of a beam under load — the greater the stiffness, the less the deflection. Measured in GPa.

17

Maximum Crushing Strength - Unseasoned:

Also referred to as compression strength. This property measures the ability of the timber to withstand loads applied on the end grain. Measured in MPa.

54

Maximum Crushing Strength - Seasoned: Also referred to as compression strength. This property measures the ability of the timber to withstand loads applied on the end grain. Measured in MPa.

73

Impact - Unseasoned: Provides the Izod value, which is the energy taken in joules (J) to fracture the timber.

23

Impact - Seasoned: Provides the Izod value, which is the energy taken in joules (J) to fracture the timber.

17

Toughness - Unseasoned: This is a measure of timber’s ability to resist shocks and blows, and is synonymous with impact strength. It is measured in Nm.

Medium - 15 - 24 Nm

Toughness - Seasoned: This is a measure of timber’s ability to resist shocks and blows, and is synonymous with impact strength. It is measured in Nm.

Medium - 15 - 24 Nm

Hardness - Unseasoned: Refers to the Janka hardness test and is a measure of timber’s resistance to indentation.

9.2

Hardness - Seasoned: Refers to the Janka hardness test and is a measure of timber’s resistance to indentation.

14.7

Durability

Low Moderate Reasonably High High
(0 - 5 yrs) (5 - 15 yrs) (15 - 25 yrs) (more than 25 yrs)

In-Ground: Durability is defined as the inherent resistance of a timber species to decay, or to insect or marine borer attack. All references to durability refer to the heartwood only. A scale of low to high (durability class 4 = low; 1 = high) has been adapted for above and in-ground durability.

Check mark
(0 - 7 yrs) (7 - 15 yrs) (15 - 40 yrs) (More than 40 yrs)

Above ground: Durability is defined as the inherent resistance of a timber species to decay, or to insect or marine borer attack. All references to durability refer to the heartwood only. A scale of low to high (durability class 4 = low; 1 = high) has been adapted for above and in-ground durability.

Check mark
(0 - 20 yrs, usually < 5) (21 - 40 yrs) (41 - 64 yrs) (More than 60 yrs)

Marine Borer Resistance: Indicates whether a species is resistant (R) or not resistant (NR) to marine borer attack.

Lyctid Borer Susceptibility: Indicates whether a species is susceptible (S) or not susceptible (NS) to lyctid borer attack.

Susceptible

Lyctid Borer Susceptibility - Other:

Termite Resistance: Indicates whether a species is resistant (R) or not resistant (NR) to termites.

Resistant

Fire Properties

1 - non-combustible 2 - reasonably non-combustible 3 - slightly combustible 4 - combustible

Fire Properties Group
Number:

Group Number - Other:

3 if used on MDF or particleboard ≥12mm; veneer thickness 0.6 - 0.85mm

Average Specific Extinction Area: This value is determined by the volume of smoke measured over the mass loss of the tested sample per test carried out in accordance with ‘Cone Calorimeter Test’ AS/NZS 3837. It is measured in units of m2/kg.

<250

Bushfire Resistance: Naturally bushfire-resisting timbers are those with inherent bushfire-resisting properties. Some species have been tested and a number are in the process of being tested and are measured by Bushfire Attack level (BAL).
BAL -12.5: Ember attack,
BAL – 19: Increasing levels of ember attack and burning debris ignited by windborne embers together with increasing heat flux between 12.5 and 19 kWm3,
BAL – 29: Increasing levels of ember attack and burning debris ignited by windborne embers together with increasing heat flux between 19 and 29 kWm3.

Bushfire Attack Level (BAL) 12.5 and 19 – All AS 3959 required applications  
Appearance

The heartwood of Crow’s ash is a rich golden yellow, with the sapwood distinctively paler and around 25-40mm wide. It has a medium and even texture and the appearance of the grain is often interlocked. Crow’s ash has a very greasy surface due to the occurrence of natural oils.

Common Applications

Crow’s ash is a highly durable timber, but due to its poor workability it is limited to certain applications. It is mainly used for flooring and decking, where its rich golden colour can be admired. Many old dance halls in Australia used Crow’s ash flooring, with many still in fantastic condition — a testament to the toughness of this species. Crow’s ash is also used for boat building and outdoor furniture.

Workability

Crow’s ash has a poor workability in part due to its greasy surface. It is hard to glue and its nail holding ability is poor and may also split along the grain if nailed. It will provide fair results for steam bending. One of the main benefits of using Crow’s ash is that is a very hard-wearing timber.

Origin of timber
NSW
Crow’s Ash is generally only available in the areas that it grows - the coastal rainforest areas of northern New South Wales and Queensland. It is has become one of the rarer Australian hardwoods and so it may attract a premium.
Source of timber
Native Forest
a room with benches and paintings on the wall

Flooring

The warmth, strength and natural beauty of timber flooring is enduringly popular in a wide variety of domestic, commercial and industrial applications.

Are you looking for a supplier?

Start Your Search

Social Media Feeds