Various embodiments disclosed relate to anti-static compositions and gloves made from the same. In various embodiments, the present invention provides a doped polyaniline comprising a dopant that is a polyacrylic acid; a polymethacrylic acid; a sulfonatocalixarene; a cyclodextrin sulfate; a compound having the structure:

##STR00001##

wherein R.sup.2 is chosen from substituted or unsubstituted (C.sub.1-C.sub.10)hydrocarbyl- and substituted or unsubstituted (C.sub.1-C.sub.10)hydrocarbyl-O—. L.sup.1 is substituted or unsubstituted (C.sub.1-C.sub.10)hydrocarbylene. L.sup.2 is chosen from a bond, —O—, —O—C(O)—, and —NH—C(O)—, and n is about 1 to about 100,000; a salt thereof; or a combination thereof.

Various embodiments disclosed relate to anti-static compositions and gloves made from the same. In various embodiments, the present invention provides a doped polyaniline comprising a dopant that is a polyacrylic acid; a polymethacrylic acid; a sulfonatocalixarene; a cyclodextrin sulfate; a compound having the structure:

##STR00001##

wherein R.sup.2 is chosen from substituted or unsubstituted (C.sub.1-C.sub.10)hydrocarbyl- and substituted or unsubstituted (C.sub.1-C.sub.10)hydrocarbyl-O—. L.sup.1 is substituted or unsubstituted (C.sub.1-C.sub.10)hydrocarbylene. L.sup.2 is chosen from a bond, —O—, —O—C(O)—, and —NH—C(O)—, and n is about 1 to about 100,000; a salt thereof; or a combination thereof.

A pipeline for conveying fluids or solids has a metallic pipe on which a tubular lining made of plastic is arranged on an inner wall. The wall structure with the lining and the metallic pipe are designed to be electrically conductive and the electrical resistance of the wall structure being less than 10.sup.8Ω. This allows the electrostatically charged bulk material or fluid to discharge reliably when passing through the pipe.

The present invention provides a surge protection module which comprises a carrier board and a probe set. The carrier board is used to carry an electronic component. The probe set is disposed on the carrier board and has a plurality of probes and a short-circuit unit. Each probe is used for contacting the electronic component, and the short-circuit unit is selectively moved to a first position or a second position. When the short-circuit unit is moved to the first position, the short-circuit unit simultaneously contacts and shorts the plurality of probes. When the short-circuit unit is moved to the second position, the short-circuit unit is away from at least one of the plurality of probes.

A cleaner apparatus including a filler configured to reduce static electricity is provided. The cleaner apparatus includes a main body, a dust container detachably coupled to the main body, an extension tube having an end detachably coupled to the main body, and a suction head detachably coupled to another end of the extension tube, wherein the dust container includes a first filler having a charge mobility of 16,000 to 200,000 cm.sup.2/Vs and an aspect ratio of 1:1,500 to 1:8,500.

An electrical isolator comprising: a first fluid-carrying member and a second fluid-carrying member spaced apart from said first fluid-carrying member; a resistive, semi-conductive or non-conductive component located between said first and second fluid-carrying member, wherein said resistive, semi-conductive or non-conductive component is adapted to convey fluid flowing from said first fluid-carrying member to said second fluid-carrying member; wherein said first fluid-carrying member comprises a first annular projection extending radially outwardly, and said second fluid-carrying member comprises a second annular projection extending radially outwardly such that an annular cavity is formed between the first and second annular projections; wherein the electrical isolator further comprises: a layer of circumferentially wound fiber-reinforced polymer in the annular cavity; and a layer of helical wound fiber-reinforced polymer extending over the first annular projection, the annular cavity and the second annular projection.

An electrical isolator comprising: a first fluid-carrying member and a second fluid-carrying member spaced apart from said first fluid-carrying member; a resistive, semi-conductive or non-conductive component located between said first and second fluid-carrying member, wherein said resistive, semi-conductive or non-conductive component is adapted to convey fluid flowing from said first fluid-carrying member to said second fluid-carrying member; wherein said first fluid-carrying member comprises a first annular projection extending radially outwardly, and said second fluid-carrying member comprises a second annular projection extending radially outwardly such that an annular cavity is formed between the first and second annular projections; wherein the electrical isolator further comprises: a layer of circumferentially wound fiber-reinforced polymer in the annular cavity; and a layer of helical wound fiber-reinforced polymer extending over the first annular projection, the annular cavity and the second annular projection.

To provide a method for quantitatively and stably feeding fine powder and a system for carrying out the method. The present invention is characterized in that a gas transfer type fine powder quantitative feeding method for quantitatively transferring and feeding fine powder filled in a gas transfer type fine powder quantitative feeder to a fine powder using device by a carrier gas, wherein

when a mixed fluid of the fine powder and the carrier gas is transferred from the gas transfer type fine powder quantitative feeder to the fine powder using device, a water content in the carrier gas is adjusted to suppress an amount of static electricity that is generated in the mixed fluid.

The multilayer protective face covering device is intended to provide a dual-purpose face mask that is suitable for daily use. In other words, the device is a face mask that is capable of creating an electromagnetic barrier between a cell phone and a wearer in addition to providing an effective barrier against multiple airborne pollutants such as allergens, bacteria and viruses. To accomplish this, the device includes a plurality of layers, each being devoted to a specific function. Further, the device covers the ears and the temporal region of a user, thereby protecting vital and sensitive areas of the user's face. Furthermore, the ear and temporal region cover may be detachably attached to any existing facemask, which makes the device multifunctional and universal. Additionally, the device may include multiple fastening means for attaching to the user's face. Thus, the device is simple, efficient, inexpensive to manufacture, and easy to use.

The multilayer protective face covering device is intended to provide a dual-purpose face mask that is suitable for daily use. In other words, the device is a face mask that is capable of creating an electromagnetic barrier between a cell phone and a wearer in addition to providing an effective barrier against multiple airborne pollutants such as allergens, bacteria and viruses. To accomplish this, the device includes a plurality of layers, each being devoted to a specific function. Further, the device covers the ears and the temporal region of a user, thereby protecting vital and sensitive areas of the user's face. Furthermore, the ear and temporal region cover may be detachably attached to any existing facemask, which makes the device multifunctional and universal. Additionally, the device may include multiple fastening means for attaching to the user's face. Thus, the device is simple, efficient, inexpensive to manufacture, and easy to use.