A method for reducing the stickiness on the surface exposed to the air of a sealant layer applied on an inner cavity of a tyre. The method establishes that the surface exposed to the air of the sealant layer is subject to a UV radiation.

A tubular structure including an outer tube an inner tube arranged within the outer tube and at least one chamber formed between the outer tube and the inner tube. The tubular structure additionally includes at least one self-healing material arranged in the chamber, wherein the self-healing material is configured to solidify and/or expand upon contact with a reacting material.

A tubular structure including an outer tube an inner tube arranged within the outer tube and at least one chamber formed between the outer tube and the inner tube. The tubular structure additionally includes at least one self-healing material arranged in the chamber, wherein the self-healing material is configured to solidify and/or expand upon contact with a reacting material.

Disclosed herein are a sealant composition for use with tires, a tire having at least one component with at least one surface at least partially coated with the sealant composition, and related methods for applying the sealant composition to tires. The sealant composition comprises biorubber and a softener comprising at least one of plant oil or plant resin and has a non-petroleum content of at least 70% by weight.

A self-healing polymeric material includes a polymeric matrix material, a plurality of monomer mixture microcapsules dispersed in the polymeric matrix material, and a plurality of heat generating microcapsules dispersed in the polymeric matrix material. Each monomer mixture microcapsule of the plurality of monomer mixture microcapsules encapsulates a mixture of materials that includes a monomer and a heat-triggered initiator. Each heat generating microcapsule of the plurality of heat generating microcapsules encapsulates multiple reactants that undergo an exothermic chemical reaction. The exothermic chemical reaction generates sufficient heat to cause the heat-triggered initiator to initiate a polymerization reaction.

A self-healing polymeric material includes a polymeric matrix material, a plurality of monomer mixture microcapsules dispersed in the polymeric matrix material, and a plurality of heat generating microcapsules dispersed in the polymeric matrix material. Each monomer mixture microcapsule of the plurality of monomer mixture microcapsules encapsulates a mixture of materials that includes a monomer and a heat-triggered initiator. Each heat generating microcapsule of the plurality of heat generating microcapsules encapsulates multiple reactants that undergo an exothermic chemical reaction. The exothermic chemical reaction generates sufficient heat to cause the heat-triggered initiator to initiate a polymerization reaction.

An assembly of a pneumatic tire and of a wheel, the pneumatic tire (10) being fitted to the wheel. The assembly comprises first and second self-sealing products housed in the internal volume (V) of the pneumatic tire (10). The first self-sealing product, referred to as solid self-sealing product (OS), covers a predetermined part of the internal surface of the pneumatic tire (10). The relative position of this predetermined part in the pneumatic tire (10) does not substantially vary under the effect of gravity. The second self-sealing product, referred to as liquid self-sealing product (OL), is in the liquid form.

The present application relates to an object crack repairing tool, which comprises an exhaust film adhered on the surface of an object, a push-pull suction cup capable of being attached on the exhaust film and a crack controller used for controlling the state of a crack, wherein the exhaust film is located at the crack and can seal filling liquid in the crack, the crack controller comprises a detector used for detecting the pressure and a tool head capable of propping against or being connected with the surface of the object, and a detection end of the detector is detachably connected with the tool head. Due to such arrangement of the object crack repairing tool, the degree of force and measure control can be displayed through visual data, and the state of the object crack can be accurately controlled, thereby largely reducing the working load, greatly improving the working efficiency.

A tire with a built-in puncture sealant comprising a supporting tire carcass comprised of one or more layers of ply, an outer circumferential tread, and a radially inner layer, a pair of beads, sidewalls extending radially inward from the axial outer edges of the tread portion to join the respective beads, a sealant comprising a butyl ionomer containing degradation product, disposed inwardly from said tire carcass inner layer, wherein said sealant provides self-sealing properties to the tire.

A tire with a built-in puncture sealant comprising a supporting tire carcass comprised of one or more layers of ply, an outer circumferential tread, and a radially inner layer, a pair of beads, sidewalls extending radially inward from the axial outer edges of the tread portion to join the respective beads, a sealant comprising a butyl ionomer containing degradation product, disposed inwardly from said tire carcass inner layer, wherein said sealant provides self-sealing properties to the tire.