A pneumatic tyre includes a carcass extending between bead cores disposed in respective bead portions through a tread portion and sidewall portions, and bead apex rubbers each extending radially outwardly from the respective bead cores, each bead apex rubber having an inner side surface in a tyre axial direction. In a tyre cross-section under a standard inflated state, a ratio h1/H of a carcass-maximum-width height h1 to a carcass-maximum height H is equal to or less than 50%, and in at least one bead portion, an angle of a tangent line touching the inner surface of the bead apex rubber at an intersection of a tyre radial reference line passing a rim-width location of the standard wheel with the inner side surface of the bead apex rubber is in a range of from 55 to 75 degrees to the tyre radial reference line.

In a pneumatic tire, at least one carcass layer mounted between a pair of bead portions is formed from a carcass cord formed of an organic fiber cord having filament bundles of organic fibers intertwined together, a fineness based on corrected mass of the carcass cord is from 4000 dtex to 8000 dtex, an intermediate elongation of the carcass cord at a sidewall portion under 1.0 cN/dtex load is from 3.3% to 4.2%, and a ratio G/R of an interlayer rubber gauge G between a body portion and a folded back portion to a cord diameter R of the carcass cord, at a contact region where the body portion and the folded back portion are in contact in the carcass layer, is from 0.50 to 0.60.

A pneumatic tire 1 has a bead portion provided with a reinforcing rubber portion disposed adjacently to the axially outer side of a carcass. The reinforcing rubber portion comprises an axially inner rubber layer and an axially outer rubber layer. The radially outer end of the axially outer rubber layer is positioned radially outside the radially outer end of the axially inner rubber layer. The radially inner end of the axially outer rubber layer is positioned radially inside the radially inner end of the axially inner rubber layer.

The tire (11) for a passenger vehicle comprises a carcass reinforcement (34) anchored in each bead (32). The tire (11) is of the HIGH LOAD CAPACITY type according to the manual of the ETRTO 2021 standard. The tire (11) has a sidewall height H defined by H=SW×AR/100, where SW is the nominal section width and AR the nominal aspect ratio of the tire according to the manual of the ETRTO 2019 standard such that 95≤H≤155. The carcass reinforcement (34) comprises first carcass layer (36) wound around each circumferential reinforcing element and a second carcass layer (37), each end (371, 372) of which is arranged axially between the axially inner portion (3611, 3621) and axially outer portion (3612, 3622) of the first carcass layer (36), or axially on the inside of the axially inner portion (3611, 3621) of the first carcass layer (36).

The tire (11) for a passenger vehicle comprises a carcass reinforcement (34) anchored in each bead (32). The tire (11) is of the HIGH LOAD CAPACITY type according to the manual of the ETRTO 2021 standard. The tire (11) has a sidewall height H defined by H=SW×AR/100, where SW is the nominal section width and AR the nominal aspect ratio of the tire according to the manual of the ETRTO 2019 standard such that 95≤H≤155. The carcass reinforcement (34) comprises first carcass layer (36) wound around each circumferential reinforcing element and a second carcass layer (37), each end (371, 372) of which is arranged axially between the axially inner portion (3611, 3621) and axially outer portion (3612, 3622) of the first carcass layer (36), or axially on the inside of the axially inner portion (3611, 3621) of the first carcass layer (36).

Provided is a pneumatic tire. A carcass line when 10% of a regular internal pressure is applied is composed of a curved line (S) connecting arcs having different radii of curvature and curved to project outward in a tire width direction and a curved line (T) curved to project inward in the tire width direction. A radius of curvature (R.sub.i) at a point on the curved line (S) and a radius of curvature (R.sub.i+1) at an adjacent point satisfy |R.sub.i+1−R.sub.i|/|(R.sub.i+1+R.sub.i)/2|≤0.25. An inclination (θ.sub.S) and an inclination (θ.sub.T) at a connection point (Q) of the curved line (S) and the curved line (T) satisfy |θ.sub.S−θ.sub.T|≤8°. A ratio (Hβ/Hα) between a radial height (Hα) at a maximum outer diameter position of a carcass layer and a radial height (Hβ) at a tire maximum width position satisfies Hβ/Hα ≥0.58.

Provided is a pneumatic tire having at least one carcass layer as a skeleton extending in toroidal shape over a pair of bead portions, at least one belt layer and a tread disposed on an outer side in the radial direction of a crown portion of the carcass. In a tire section in the widthwise direction in state where the tire is assembled to an application rim, ratio BD/BW of radius difference BD between radius at a center portion and radius at an end portion in the widthwise direction of an innermost layer of the belt layer, to width BW of the innermost layer, ranges from 0.01 to 0.04, and ratio TD/TW of radius difference TD between radius at a center portion and radius at an end portion of the tread in the widthwise direction of a tread ground surface, to tread ground-contact width TW, satisfies BD/BW<TD/TW.

A pneumatic tire comprises a carcass layer, a belt layer radially outward of the carcass layer, and a tread rubber radially outward of the belt layer. The belt layer includes an angle belt having a belt angle ≥45° and ≤70° in absolute values, a pair of cross belts having belt angles of ≥10° and ≤45° in absolute values and having belt angles of mutually opposite signs, and a reinforcing layer having a belt angle within ±5° relative to a circumferential direction. A width Ws of the reinforcing layer and a cross-sectional width Wca of the carcass layer satisfy 0.60≤Ws/Wca≤0.70. The cross belts are radially outward of the large angle belt. The reinforcing layer is radially outward of the pair of cross belts. A width Wb2 of a wider cross belt of the pair and Wca satisfy 0.79≤Wb2/Wca≤0.89.

A tire that includes a plurality of annular tire constituent members respectively having joint parts formed by joining one end and another end of each member, and an electronic component. The plurality of annular tire constituent members respectively having joint parts include an inner liner that covers a tire inner cavity surface, and at least two tire constituent members different from the inner liner. The electronic component is disposed within a range of less than 90° around a tire rotation axis, relative to the positions of the joint parts of the inner liner.

A pneumatic tire of the present disclosure includes: a pair of bead cores embedded in a pair of bead portions, the pair of bead cores each including a pair of small bead cores divided in a tire width direction; and a carcass including one or more carcass plies, the carcass toroidally straddling between the pair of bead cores with end portions of the carcass each sandwiched between the pair of small bead cores and engaged with the small bead cores, in which a sound control body is disposed on an inner surface of the tire in the pair of bead portions.