Abstract: A method of manufacturing a fiber-reinforced thermoset composite includes pulling a first portion of a continuous material comprised of reinforcement fibers which are impregnated with a heat curable thermosetting resin through a die. The first portion in the die is subjected to a field of electromagnetic microwaves to heat the first portion to at least a curing temperature of the thermosetting resin. A second portion of the continuous material is pulled through the die. The field of electromagnetic microwaves is reduced in the die such that the second portion is not heated to the curing temperature.

Abstract: The present disclosure provides a method of manufacturing a hybrid side sill for an automobile. The method includes a step for forming a pultruded profile part including a continuous fiber reinforced thermoplastic polymer, which has a heat deflection temperature of at least 200° C., and a step for attaching a terminal part made of steel to an end portion of the pultruded profile part.

Abstract: The present disclosure provides a hybrid side sill for an automobile. The hybrid side sill may includes a pultruded profile part including a continuous fiber reinforced thermoplastic polymer, which has a heat deflection temperature of at least 200 °C., and a terminal part including steel, which is attached to an end portion of the pultruded profile part. The present disclosure further provides an automobile body including such a hybrid side sill and also a method of manufacturing a hybrid side sill for an automobile. The manufacturing method includes a step for forming a pultruded profile part including a continuous fiber reinforced thermoplastic polymer, which has a heat deflection temperature of at least 200 °C., and a step for attaching a terminal part made of steel to an end portion of the pultruded profile part.

Abstract: A method of manufacturing a crash-resistant structural part for an automobile, the crash-resistant structural part including a beam element for receiving an impact force during a crash of the automobile is provided. The method comprises a step of arranging at least one layer of fibers having a length of 100 mm or more, and a step of mixing components required to form a thermoplastic polymer resin, the components including a reactive monomer, thereby forming a liquid precursor mixture of the thermoplastic polymer resin. At least one layer of fibers is impregnated with the liquid precursor mixture, and the beam element is formed by an in-situ polymerization reaction of the liquid precursor mixture having impregnated the at least one layer of fibers.

Abstract: The present disclosure provides a hybrid side sill for an automobile. The hybrid side sill may includes a pultruded profile part including a continuous fiber reinforced thermoplastic polymer, which has a heat deflection temperature of at least 200° C., and a terminal part including steel, which is attached to an end portion of the pultruded profile part. The present disclosure further provides an automobile body including such a hybrid side sill and also a method of manufacturing a hybrid side sill for an automobile. The manufacturing method includes a step for forming a pultruded profile part including a continuous fiber reinforced thermoplastic polymer, which has a heat deflection temperature of at least 200° C., and a step for attaching a terminal part made of steel to an end portion of the pultruded profile part.

Abstract: A method of manufacturing a fiber-reinforced thermoset composite includes pulling a first portion of a continuous material comprised of reinforcement fibers which are impregnated with a heat curable thermosetting resin through a die. The first portion in the die is subjected to a field of electromagnetic microwaves to heat the first portion to at least a curing temperature of the thermosetting resin. A second portion of the continuous material is pulled through the die. The field of electromagnetic microwaves is reduced in the die such that the second portion is not heated to the curing temperature.

Abstract: A method of manufacturing a crash-resistant structural part for an automobile, the crash-resistant structural part including a beam element for receiving an impact force during a crash of the automobile is provided. The method comprises a step of arranging at least one layer of fibers having a length of 100 mm or more, and a step of mixing components required to form a thermoplastic polymer resin, the components including a reactive monomer, thereby forming a liquid precursor mixture of the thermoplastic polymer resin. At least one layer of fibers is impregnated with the liquid precursor mixture, and the beam element is formed by an in-situ polymerization reaction of the liquid precursor mixture having impregnated the at least one layer of fibers.