Abstract: The liner according to the invention is designed such that the moisture barrier component of the liner may be easily separated from the garment for inspection, testing, repair or replacement. In the preferred embodiment of the invention, the moisture barrier is attached to the thermal barrier or the outer shell component by means of a heat and flame resistant slide fastener.

Abstract: The liner according to the invention is designed such that the moisture barrier component of the liner may be easily separated from the garment for inspection, testing, repair or replacement. In the preferred embodiment of the invention, the moisture barrier is attached to the thermal barrier or the outer shell component by means of a heat and flame resistant slide fastener.

Abstract: The shroud is made of a radiant-heat reflecting and thermo-insulating fabric material and is shaped to cover the shoulders, upper chest and back of a firefighter, and to be worn with a firefighting proximity garment. The shroud has a lower edge reaching the upper chest and back of the firefighter, and a continuous upper edge extending to the helmet outer cover. A face opening is provided in the shroud opposite the face piece when the shroud is worn over the firefighting protective garment. The face opening can be adjusted to the dimension of the face piece and is arranged to prevent the formation of gaps in protection between the face piece and the periphery of the face opening. The shroud can be fixed to the helmet outer cover at the continuous upper edge so as to prevent heat from penetrating into the firefighting protective garment between the helmet and the helmet outer cover.

Abstract: The firefighter's turnout pants according to the invention are designed so that each pant leg comprises a front panel and a back panel above the knee region, the panels being joined by an outseam and an inseam, and cylindrical panels below the knee region, the cylindrical panels being each joined by only an outseam and connected via a circumferential seam at the knee to the two-panels above the knee. The absence of an inseam below the knee of the firefighter's pants eliminates a chronic problem of abrasion of the threads used in that portion of the inseam and subsequent failure of the inseam. The absence below the knee of an inseam with the potential for failure reduces the maintenance and repair of the firefighter pants, reduces the risk of burn injury resulting from a breach in the protective envelope of the firefighter's pants, and reduces the incidence of reflective trim becoming coincidentally detached from the pants.

Abstract: The laminate is formed of a sheet of a woven textile material derived from multifilamentary aramid, polyimide, polyamide, polybenzimidazole or cellulose fire retardant yarns and a sheet of non-woven textile material. The adhesive used to produce the laminate should prevent slippage of the two materials relative to one another and fraying of the woven textile material while enabling the laminate to be air permeable, and having a minimum ten (10) cubic feet per minute (CFM) when tested in accordance with test method ASTM D737. This product is cheaper to manufacture and is more comfortable than the known quilted and coated material.

Abstract: The outer shell consists of a plain weave multifilament fabric derived from aramid, polyimide, polyamide or polybenzimidazole yarns. The inner sheet is a woven, non-woven or knitted material. The two sheets are laminated with an adhesive which enables the two sheets to be laminated in such a manner that the two sheets are non slipping with respect to one another while enabling the laminate to be air permeable with a minimum of ten (10) cubic feet per minute (CFM), when tested in accordance with ASTM D737.

Abstract: The textile material is a woven or knit fabric made of multifilament aramid yarns or yarns made of cellulose fire retardant material. When used in conjunction with a firefighter protective garment, the lining increases wearer comfort, reduces metabolic energy requirements, decreases metabolic heat build-up, and the weight of a fire-protective garment including this textile material.

Abstract: The textile material is a woven fabric made of multifilament aramid yarns. When used in conjunction with a firefighter protective garment, the lining increases wearer comfort, reduces metabolic energy requirements, decreases metabolic heat build-up, and the weight of a fire-protective garment including this textile material.