XXII.]
LAUAN.
143
officially reported upon to the Spanish Government only a short time ago:—
| Arc of flexion produced by a constant weight of 2,204 lbs. hung from the centre. |
Arc at which fracture took place. |
Weight applied at centre of the arc. |
Distance between the supporters of the wood. |
| Inch. | Inches. | lbs. | Inches. |
| 0.43 | 3.15 | 14.99 | 23.62 and 26.77 |
| Weight of the specimen. |
Resistance | Maximum elasic- ticity to be allowed in construction of buildings. |
Weight corre- ponding to this elasticity |
Strength of Elasticity |
Resistance to tortion co-efficient of fracture T | |||
| To pressure | Tension of strength of cohesion. | |||||||
| With the grain of the fibre. |
On the Grain perpendi- cularly |
Absolute strength. |
Applicable strength. | |||||
| lbs. | lbs. | lbs. | lbs. | Inch. | lbs. | lbs. | lbs. | lbs. |
| .948 | 498.24 | 198.41 | 1529.99 | .038 | 152 99 | 158.16 | 168.43 | 16.84 |
Remarks.—Weight producing fracture at the bend, 1.32 lb. T co-efficient of fracture by bending, or of maximum bend.
Father Gaspard de St. Augustine says, in his manuscript History of the Philippine Islands, that the outside planks of the old Manilla and Acapulco galleons were of Lauan wood, and that it was chosen because it does not split with shot.
THE ACLE, No. 7 (Mimosa Acle, Juga xylocropa),[1]
is without thorns or excrescences. The Indians use it for the construction of their houses, and prize it for its good quality. In working it causes sneezing. The bark is
- ↑ Blanco's "Philippine Flora."
