There are many beliefs about the superiority of bias ply
tires over radials and vice versa. This inspired me to do some research
on the subject and summarize the information here. Interco Tire Company,
the maker of the Super Swamper bias ply and radial tires, was kind
enough to review this article and give some additional information.
Please send me any comment or corrections by using the Feedback button at the bottom of the page.
All tires consist of layers of fabric called the pliesthat run from bead to bead. Each ply consists of cords(the "threads") running parallel to each other.
On a radial tire, the plies are
run from bead to bead directly across the tire (radially). In other
words, the cords are perpendicular to the bead. Successive plies are
just layered over the existing ones with all cords being parallel. A bias
ply tire runs the plies at an angle to the bead (biased).
Different layers have opposing angles, criss-crossing across the tire.
On an unbelted tire, like most bias ply designs, the tread rubber is
molded right on top of the plies. For a belted tire, like a radial, a
flat layer of material, usually a steel mesh, is placed between the body
and tread. The belt is just a weave
of metal fibers that overlap in a pattern very similar to the criss-crossing
bias ply material. Each belt adds an additional layer in the tread area
but leaves the sidewall area untouched.
Mechanics
Imagine a tire without the plies or
tread rubber, mounted on a rim. As we add air, it would behave like a
balloon by expanding. Pressure won't build up very high because the
rubber cannot provide enough tension. The plies in a tire prevent the
over expansion and allow pressure to build up. However, we still have a
tire that is very rounded. The addition of tread rubber, which is much
thicker than the sidewalls, adds stiffness and flattens out the tread
area. We now have a tire.
Inside the tire, the air under pressure presses equally in all
directions, allowing the tire to act as a spring. As the weight of the
vehicle compress the tire, the air resists. The sidewall must deform
allowing the tire to flatten. The contact area between the road and tire
multiplied by the air pressure in the tire should equal the load on the
tire. However, this is not exactly the case and is the key to many of
the differences between the radial and bias ply tires. As mentioned
before, the cords that make up the plies can be thought of as a thread.
They are easy to bend but resist being stretched (tension).
Bias Ply
Remember that the plies criss-cross
across a bias ply tire. One layer is strong in the weak direction of
another. As the tire is compressed and flattened, some of the cords are
put under tension, i.e. stretched. They resist. Hence, the body of the
tire aids in supporting the load. Bias ply bodies are usually made of
nylon cord which is very strong.
Bias ply tires are rounded in the tread area because there is nothing
beyond the tread rubber to flatten them out. As the tire rolls, the
center section must deflect more than the edges, leading to higher
contact pressure in the middle. The tread blocks also tip inward. All
this results in a contact area smaller than expected.
Also note that since the body carries some of the load, the tires can
heat up very quickly. The lateral and longitudinal flattening of the
tread area when rolling compounds the problem. Excessive heat or load
can cause the plies to separate. Strict attention to air pressure is
crucial to safety and tire life.
Radial
A radial has the cords running
perpendicular to the bead and to the ground. Hence, as the tire flattens
out, the sidewall plies just bend, adding very little resistance. We end
up with the distinctive radial bulge. The bodies are usually made out of
polyester which is less stiff than nylon. The radial pattern, polyester
material, and belt results in the load being distributed equally across
the contact area. Since the body adds very little stiffness, the load is
almost entirely carried by the air, resulting in a contact area very
close to expected.
If a radial did not have a belt, the tire would deform too much.
Under any kind of cornering load it would just roll sideways on the rim.
Furthermore, concentrated loads in the tread area would cause the cords
to separate because the plies have very little resistance in the
direction perpendicular to the cords. The bias construction of the belt
resists the twisting and separating forces.
Belted
Bias Ply
A belt can be added to a bias ply tire.
The belt is usually steel or fiberglass and is placed between the tread
and body, like the radial. The belt resists the rounding of the tread
area, giving a flatter tread and distributing the load better.
Otherwise, the tire is the same as a bias ply.
Comparison
Bias ply bodies are usually made of
nylon which is extremely strong but not very pliable. Radial bodies are
usually made of polyester which is not quite as strong as nylon, but is
more flexible. Bias ply tires use more layers of the stronger nylon
material while radials have fewer layers of polyester. The bias ply
pattern allows one layer to strengthen another. The radial piles are
placed such all cords are parallel, preventing them from reinforcing
each other. This construction makes bias plies very durable,
resistant to bursting and tolerating twisting and bending. Since the sidewall is as strong as the rest of the body, the sidewalls can take high
lateral loads, twisting, and bending which would cause a radial to
split.
A split in the sidewall of a radial is known as a radial
crack. It appears as a slit perpendicular to the bead or
tread area. High lateral loads, twisting, and bending can cause this
during off-roading or operating with too little air pressure. This can
also occur under high torque conditions like when a spinning tire
suddenly gets traction or accelerating a high powered vehicle on the
street, more common with lower tire pressure. Bias ply tires can
experience ply separation usually
from excessive heat or overloading.
While the bias ply's sidewall is very strong, a sharp object can
easily pierce either design's body or sidewall.
Nylon is quite stiff when cold, giving bias plies that distinctive
square tire ride when cold.
Polyester is less affected by cold.
Since the bias ply sidewall carries some of the load, it is very
stiff. Since the radial's belt distributes the load across the tread
area, the sidewall (and body) can be made less stiff, allowing the air
to do the work. Hence, the radial's sidewalls aid in absorbing
shock.
The flexible body and the addition of a belt gives radial tires a
nice, flat tread. The load is more evenly distributed across the width
and the tread blocks don't fold in. The rounded shape of the bias ply
causes the center portion of the tread area to be further compressed
than the edges, concentrating the load and tilting the tread blocks.
Therefore, radials have better directional
stability. The belt in a belted bias ply does help to flatten
the tread and increases the directional stability of the bias ply.
The shock absorbing flexible sidewall of the radial allows the tire
to conform to irregularities, important for off-roading. Combined with
the flat tread area, radials have excellent traction.
They also respond to airing down very well. The stiffer construction of
bias ply and belted bias ply tires inhibit the tire from conforming and
makes the contact patch smaller. However, the flatter tread and
distributed load in the belted version does improve its traction.
As noted above, the belt material is usually in a bias ply pattern.
When placed on a radial, there is flex point where the belt meets the
radial sidewall. On a bias ply, the construction is homogeneous, or on a
belted bias ply, the sidewall and belt are in the same pattern. Hence,
they don't have this flex area. This allows bias ply tires to use tread
blocks up to or extending down the sidewall to aid in
protection and traction.
A belt not only flattens the tread area, it maintains the flatness.
Under cornering loads, the tread does not bend as much preventing the
tire from rolling on the rim. Radials and belted bias plies handlebetter.
Tires with a steel belt have better protection in the tread area. A
sharp object that slices down might not cut through the metal mesh. The
belt does not add any extra protection against punctures though.
Selection
For on road driving, the radial is usually the best
choice. The shock absorbing body leads to a smooth ride. The flat tread
area gives good directional stability and traction. The belt adds
handling. The polyester body performs well in the cold. The stiff bias
ply transfers shock to the suspension. The rounded tread area reduces
traction, directional stability, and handling. A belted bias can
compensate for these shortcomings, but does not perform as well as the
radial.
For severe off-road driving, the bias ply is a stronger tire. The
nylon sidewalls resist abrasions more than the polyester. More
importantly, the bias construction tolerates twisting and bending from
rocks and roots. Since the sidewall is as strong as the rest of the
body, it can take lateral loads from rocks and roots without splitting.
They can survive abuse that would destroy a radial. The radial's
sidewall plies don't reinforce each other, making them very vulnerable
to splitting from twisting, bending, and side loads. The weak sidewalls
can also bulge out quite far, exposing them to danger. The bias ply can
use extremely aggressive treads for excellent traction. Sidewall tread
blocks can help protect the sidewall further and to add traction to
climb out of ruts and up rocks.
For more moderate off-roading, the choice is not clear. A case can be
made for either design. While the radial has the aforementioned
disadvantages, the radial's flexibility gives it a smoother ride. It
also conforms to irregularities, and with the belt, distributes the load
evenly for excellent traction. They also air down well for a larger
footprint for floatation.
Similarly, we already pointed out the benefits of the bias ply
off-road. However, they suffer from a stiff sidewall resulting in a
rough ride. They do not conform to irregularities or distribute the load
as well. The smaller contact area reduces traction. Airing down has less
effect on the contact area. A belted design helps in the traction but
not much else.
Hybrids
There are some alternatives that lie between a straight
bias ply and radial tire.
The belted bias ply, as noted above, gives the bias ply the flatter
tread area, increasing directional stability, handling, and traction on
and off-road. However, the body is still extremely stiff.
There are also some belted bias ply tires that are using polyester
instead of nylon. The polyester allows a little more flex to absorb
shock, allow the tire to conform to obstacles, and to allow better aired
down performance. Furthermore, they do not have the rough ride when
cold. By increasing the denier of the cords, the polyester tires can
have equal load ability as the nylon counterparts. Some abrasion
resistance is lost however. I am very excited about this design.
Some radials have more layers in the sidewall to increase strength.
However, they are still laid in a radial pattern and cannot resist
twisting and scuffing like the criss-cross bias ply pattern. The extra
plies can also decrease flexibility, hence ride and traction.
Summary
In summary, bias ply tires are the clear choice for off-roading
in conditions where sidewall strength, larger lugs, and sidewall
traction features are of paramount concern. Radials with their longer
tread life, smooth ride, and good control are the best for on-road
driving. Between these extremes, many tires can be successfully used if
some simple recautions are taken.
If using a bias ply on the street, strict attention must be paid to
air pressure. Since they are stiff, they look inflated even with very
little air pressure. Driving with this condition can lead to ply
separation because they heat up excessively. Radials on the street need
to have the correct air pressure too to prevent radial cracking or tread
separation (those rings of tread material on the side of the highway).
If using radials off-road, try to keep the air pressure up to decrease
the sidewall bulge and to prevent splitting.
Many people swear by one or the other. As with most things, there is
not a clear cut superiority of one over another. Interco, for example,
makes all three designs to satisfy different needs. Remember that bias
ply tires served the industry for many years before the invention of the
radial, and the technology has improved them dramatically. On the flip
side, radials were invented for a reason.
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