resinous like some keruing (Dipterocarpus) species that re-
semble meranti. All the meranti groups are machined easily
except white meranti, which dulls cutters as a result of high
silica content in the wood. The light red and white merantis
dry easily without degrade, but dark red and yellow meran-
tis dry more slowly with a tendency to warp. The strength
and shrinkage properties of the meranti groups compare
favorably with that of northern red oak (Quercus rubra).
The light red, white, and yellow merantis are not durable
in exposed conditions or in ground contact, whereas dark
red meranti is moderately durable. Generally, heartwood is
extremely resistant to moderately resistant to preservative
treatments.
Species of meranti constitute a large percentage of the total
hardwood plywood imported into the United States. Other
uses include joinery, furniture and cabinetwork, moulding
and millwork, flooring, and general construction. Some
dark red meranti is used for decking.
Merbau
Merbau (Malaysia), ipil
(Philippines), and kwila
(New Guinea) are names
applied to species of the
genus Intsia, most com-
monly I. bijuga. Intsia is
distributed throughout
the Indo–Malaysian
region, Indonesia,
Philippines, and many western Pacific islands, as well
as Australia.
Freshly cut yellowish to orange–brown heartwood turns
brown or dark red–brown on exposure to air. The texture
is rather coarse, and the grain is straight to interlocked or
Table 2–2. Woods belonging to the genus Shorea
Name Color
Density
of air-dried wood
Dark red meranti
(also called
tanguile and dark
red seraya)
Dark brown, medium
to deep red, sometimes
with a purplish tinge
640+ kg m–3
(40+ lb ft–3)
Light red
meranti (also
called red seraya)
Variable—almost white
to pale pink, dark red,
pale brown, or deep
brown
400–640 kg m–3,
averaging 512 kg m–3
(25–40 lb ft–3,
averaging 32 lb ft–3)
White meranti
(also called
melapi)
Whitish when freshly
cut, becoming light
yellow–brown on
exposure to air
480–870 kg m–3
(30–54 lb ft–3)
Yellow meranti
(also called
yellow seraya)
Light yellow or yellow–
brown, sometimes with
a greenish tinge; darkens
on exposure to air
480–640 kg m–3
(30–40 lb ft–3)
but most abundant in the
Guianas and the lower
Amazon region of Brazil.
The heartwood is gener-
ally yellowish to dark
brown, sometimes with a
reddish tinge. The texture
is fine and close, and the
grain is usually straight. Marishballi is strong and very
heavy; density of air-dried wood is 833 to 1,153 kg m–3
(52 to 72 lb ft–3). The wood is rated as easy to moderately
difficult to air dry. Because of its high density and silica
content, marishballi is difficult to work. The use of hard-
ened cutters is suggested to obtain smooth surfaces. Dura-
bility varies with species, but marishballi is generally con-
sidered to have low to moderately low resistance to attack
by decay fungi. However, it is known for its high resistance
to attack by marine borers. Permeability also varies, but the
heartwood is generally moderately responsive to treatment.
Marishballi is ideal for underwater marine construction,
heavy construction above ground, and railroad crossties
(treated).
Mata-Mata
(see Manbarklak)
Mayflower
(see Roble)
Melapi
(see Meranti Groups)
Meranti Groups
Meranti is a common
name applied commer-
cially to four groups of
species of Shorea from
southeast Asia, most com-
monly Malaysia, Indone-
sia, and the Philippines.
There are thousands of
common names for the various species of Shorea, but the
names Philippine mahogany and lauan are often substituted
for meranti. The four groups of meranti are separated on the
basis of heartwood color and weight (Table 2–2). About 70
species of Shorea belong to the light and dark red meranti
groups, 22 species to the white meranti group, and 33 spe-
cies to the yellow meranti group.
Meranti species as a whole have a coarser texture than that
of mahogany (Swietenia macrophylla) and do not have
dark-colored deposits in pores. The grain is usually inter-
locked. All merantis have axial resin ducts aligned in long,
continuous, tangential lines as seen on the end surface of
the wood. These ducts sometimes contain white deposits
that are visible to the naked eye, but the wood is not
General Technical Report FPL–GTR– 190