Lightweight, arc-rated, dyeable fabrics

Abstract

Lightweight, dyeable fabrics with a balance of high thermal properties, especially arc resistance, on the one hand, and durability and comfort properties, on the other hand, are disclosed. Articles, such as garments and linen, made from the lightweight dyeable fabrics are also disclosed. The fabrics are particularly useful in garments for utility workers, industrial workers, military personnel, and firefighters, especially for use in environments requiring high visibility.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application claims priority to U.S. Application No. 62 / 043,442 filed Aug. 29, 2014, the entire disclosure of which is incorporated by reference.FIELD OF THE INVENTION[0002]The present invention generally relates to performance fabrics. More particularly, the invention relates to lightweight, arc-rated, dyeable and dyed fabrics with a balance of thermal, durability, and comfort properties and to the garments and article made from the fabrics.BACKGROUND OF THE INVENTION[0003]Flame-resistant fabrics (also variously referred to as “FR”, “fire-resistant,”“flame-retardant,” and “fire-retardant” fabrics) are fabrics that, once ignited, tend not to sustain a flame, when the ignition source is removed. Considerable research has been directed toward the development and improvement of flame-resistant fabrics for use in various products, including clothing and bedding. Flame-resistant clothing is often worn by workers involved in activities, suc...

AI Technical Summary

Benefits of technology

The invention is about fabrics that are lightweight, can be easily dyed, and have good thermal properties (resisting heat and electricity). These fabrics can be used to make clothing, especially for workers in utilities, industrial settings, and fire tanks. The color of the fabric is highly visible when it is dyed.

Problems solved by technology

Flame-resistant clothing is often worn by workers involved in activities, such as industrial manufacturing and processing (such as oil, gas, and steel industries), fire-fighting, electrical utility work, military work, and other endeavors that entail a significant risk of being exposed to open flame, flash fire, momentary electrical arcs, and / or molten metal splash.

Non-flame resistant work clothes can ignite and will continue to burn even after the ignition source has been removed.

Untreated natural fabrics will continue to burn until the fabric is totally consumed and non-flame resistant synthetic fabrics will burn with melting and dripping, causing severe contact burns to the skin.

Abrasion resistance of protective fabrics is also important, as garments that have developed failures, such as holes and rips, can compromise the protective properties of the fabric.

These types of fabrics are susceptible to losing their flame resistance with repeated launderings with hypochlorite bleach.

Hypochlorite bleach attacks the finish and reduces the flame-resistant properties of the fabric.

Flame-resistant fabrics may contain a low percentage of natural fibers and have limited comfort properties, such as water absorption and breathability.

Combining some percentage of natural hydrophilic fibers with FR fibers may provide some improvement in comfort and moisture wicking, however this typically comes at a loss of FR performance properties.

Most FR fibers, including aramid fibers, are hydrophobic and do not provide high comfort performance.

Adding a high concentration of hydrophilic fibers, however, may negatively impact moisture management properties and / or fire resistance properties.

In addition, garments made from fabrics having high percentage content of hydrophilic fibers may become oversaturated with moisture, such as from sweat, and cause additional burns, when expose to a high temperature.

In addition, fabrics made with a high percentage of aramid fibers, including meta-aramid and / or para-aramid, fibers are typically stiff, have poor softness or drape properties, and are generally uncomfortable to wear.

Unfortunately, many of these garments are made with hydrophobic and / or hydrophilic coatings that can lose effectiveness with repeated washings.

Therefore, washed treated garments may have improved softness but decreased moisture management properties.

In addition to char formation, and having high Oxygen Limiting Index (LOI), many FR fibers are poor conductors of heat.

Unfortunately, many of the FR blends are not comfortable under typical environmental conditions.

One of the hazards to which workers are exposed is arc flash, which is an explosive release of energy caused by an electrical arc.

An arc flash results from either a phase to ground or a phase to phase fault caused by, for example, accidental contact with electrical systems, accumulation of conductive dust, corrosion, dropped tools, and improper work procedures.

During an arc flash, the temperature can reach 35,000° F., and exposure to an arc flash can result in serious burn injury and death.

If fabric is ignited by an arc flash, flash fire, molten metal, and like, the hazard to the wearer instantaneously escalates, because the fire will last much longer than the initial hazard, will typically burn the victim over a much larger body surface area and more deeply, and is more likely to result in airway and lung damage.

Unfortunately, increased fabric weight can make garments uncomfortable, bulky, and stiff and may lead to non-compliance by the wearer.

Also, for lighter weight fabrics, such as those used in undergarments, it may not be possible to achieve the arc rating, required by workers in high hazard fields, such as utility workers, transportation workers, industrial workers, fire fighters, and military personnel.

However, these fabrics are generally not lightweight.