The Microflex FreeForm SE disposable, chlorinated, powder-free, standard length nitrile glove has textured fingers. It has a palm thickness of 3.5 mils and a finger thickness of 5.1 mils, and is 9.6″ long from the tip of the middle finger to the edge of the beaded wrist cuff, which is 2.8 mils thick. It is suitable for dental, emergency medical services, healthcare, industrial safety, and laboratory applications. Nitrile provides better elasticity than vinyl, better puncture resistance than latex or vinyl, better abrasion resistance than chloroprene, and helps reduce the likelihood of allergic reaction. The glove is textured along the length of the fingers for improved grip compared to a glove with textured fingertips. A non-stick surface helps prevent tape and adhesive from sticking to the glove. It has been washed in a diluted chlorine-based solution to help reduce tackiness, providing lower surface friction than a non-chlorinated glove and allowing quick donning in wet environments. This powder-free glove leaves no residue, helping to reduce the likelihood of spreading bacteria compared to a powdered glove. The color of this ambidextrous glove is blue.

Tensile strength, measured in megapascals (MPa), is the amount of force required to rip a glove; the higher the number, the stronger the glove material. This glove has a tensile strength of 32 MPa before aging and 31 MPa after aging. Elongation measures how much a glove can be stretched before it breaks. It is expressed as a percent of the original length of the glove at the moment of breakage, and the higher the percent, the more the glove can stretch. This glove has an elongation of 500% before aging and 400% after aging. Acceptable Quality Level (AQL) is a Food and Drug Administration (FDA) quality specification for the defect rate in surgical and exam gloves. The FDA requires an AQL of 1.5 for surgical gloves and 2.5 for exam gloves. This glove has an AQL of 1.5, which means the defect level from a large sample of the gloves will not exceed 1.5%. Microflex examination gloves meet or exceed applicable standards imposed by ASTM International, formerly known as the American Society for Testing and Materials (ASTM), and the FDA.

Disposable and limited-use gloves are used in medical, forensic, scientific, art, and industrial applications. Gloves are commonly made from flexible materials such as latex, nitrile, chloroprene, and vinyl. While most disposable gloves are designed for either hand, some can be purchased in hand-specific models. They are offered powdered or powder-free; silicone or silicone-free; chlorinated or non-chlorinated; coated or uncoated; with a standard- or extended-length cuff; sterile or non-sterile; and with textured or smooth fingers, fingertips, and palms. A glove’s abrasion, cut, and puncture resistance is defined by glove material and thickness, and may be improved with the use of certain exterior coatings. Abrasion resistance means the glove helps protect the hand from contact with rough objects. Cut resistance means the glove helps protect the hand from blades and sharp instruments. Puncture resistance means the glove helps protect the hand from pointed objects such as pins and needles. Chemical resistance means the glove helps protect the hand from certain chemicals. Chemical resistance is defined by glove material, thickness, and length, as well as the work environment and chemicals likely to be encountered. For information on the chemical resistance of this glove, consult the manufacturer’s chemical resistance guide.

Microflex Corporation manufactures disposable gloves. The company, founded in 1988 and headquartered in Reno, NV, meets International Organization for Standardization (ISO) 13485:2003.

The Microflex ComfortGrip disposable, chlorinated, powder-free, standard length latex glove is fully textured along the palm and fingers and has an external polymer coating. It has a palm thickness of 5.1 mils and a finger thickness of 5.9 mils and is 9.6″ long from the tip of the middle finger to the edge of the beaded wrist cuff, which is 3.9 mils thick. It is suitable for automotive, dental, emergency medical services, healthcare, industrial safety, and laboratory applications. Latex provides better elasticity than nitrile, chloroprene, or vinyl, and better puncture resistance than vinyl. The glove is textured on the fingertips, fingers, and palm for improved grip, particularly in wet conditions, compared to a glove with textured fingers. A polymer coating has been applied to the external surface of the glove to help prevent tapes and adhesives from sticking to the glove. The glove has been washed in a diluted chlorine-based solution to help reduce tackiness, providing lower surface friction than a non-chlorinated glove and allowing quick donning in wet environments. This powder-free glove leaves no residue, helping to reduce the likelihood of spreading latex allergens and bacteria compared to a powdered glove. The color of this ambidextrous glove is off-white.

Tensile strength, measured in megapascals (MPa), is the amount of force required to rip a glove; the higher the number, the stronger the glove material. This glove has a tensile strength of 23 MPa before aging and 19 MPa after aging. Elongation measures how much a glove can be stretched before it breaks. It is expressed as a percent of the original length of the glove at the moment of breakage, and the higher the percent, the more the glove can stretch. This glove has an elongation of 650% before aging and 500% after aging. Acceptable Quality Level (AQL) is a Food and Drug Administration (FDA) quality specification for the defect rate in surgical and exam gloves. The FDA requires an AQL of 1.5 for surgical gloves and 2.5 for exam gloves. This glove has an AQL of 1.5, which means the defect level from a large sample of the gloves will not exceed 1.5%. Microflex examination gloves meet or exceed applicable standards imposed by ASTM International, formerly known as the American Society for Testing and Materials (ASTM), and the FDA.

Disposable and limited-use gloves are used in medical, forensic, scientific, art, and industrial applications. Gloves are commonly made from flexible materials such as latex, nitrile, chloroprene, and vinyl. While most disposable gloves are designed for either hand, some can be purchased in hand-specific models. They are offered powdered or powder-free; silicone or silicone-free; chlorinated or non-chlorinated; coated or uncoated; with a standard- or extended-length cuff; sterile or non-sterile; and with textured or smooth fingers, fingertips, and palms. A glove’s abrasion, cut, and puncture resistance is defined by glove material and thickness, and may be improved with the use of certain exterior coatings. Abrasion resistance means the glove helps protect the hand from contact with rough objects. Cut resistance means the glove helps protect the hand from blades and sharp instruments. Puncture resistance means the glove helps protect the hand from pointed objects such as pins and needles. Chemical resistance means the glove helps protect the hand from certain chemicals. Chemical resistance is defined by glove material, thickness, and length, as well as the work environment and chemicals likely to be encountered. For information on the chemical resistance of this glove, consult the manufacturer’s chemical resistance guide.

Microflex Corporation manufactures disposable gloves. The company, founded in 1988 and headquartered in Reno, NV, meets International Organization for Standardization (ISO) 13485:2003.

The Microflex Supreno SE disposable, chlorinated, powder-free, standard length nitrile glove has textured fingers and an external polymer coating. It has a palm thickness of 4.7 mils and a finger thickness of 7.1 mils and is 9.6″ long from the tip of the middle finger to the edge of the beaded wrist cuff, which is 3.9 mils thick. The glove is suitable for automotive, emergency medical services, healthcare, industrial safety, and laboratory applications. Nitrile provides better elasticity than vinyl, better puncture resistance than latex or vinyl, better abrasion resistance than chloroprene, and helps reduce the likelihood of allergic reaction. The glove is textured along the length of the fingers for improved grip compared to a glove with textured fingertips. A polymer coating has been applied to the exterior surface of the glove to help prevent tapes and adhesives from clinging to the glove. This glove has been washed in a diluted chlorine-based solution to help reduce tackiness, providing lower surface friction than a non-chlorinated glove and allowing quick donning in wet environments. This powder-free glove leaves no residue, helping to reduce the likelihood of spreading bacteria compared to a powdered glove. The glove meets the emergency medical glove requirements of the National Fire Protection Association (NFPA) code 1999 (2008 edition). The color of this ambidextrous glove is blue.

Tensile strength, measured in megapascals (MPa), is the amount of force required to rip a glove; the higher the number, the stronger the glove material. This glove has a tensile strength of 30 MPa before aging and 30 MPa after aging. Elongation measures how much a glove can be stretched before it breaks. It is expressed as a percent of the original length of the glove at the moment of breakage, and the higher the percent, the more the glove can stretch. This glove has an elongation of 500% before aging and 500% after aging. Acceptable Quality Level (AQL) is a Food and Drug Administration (FDA) quality specification for the defect rate in surgical and exam gloves. The FDA requires an AQL of 1.5 for surgical gloves and 2.5 for exam gloves. This glove has an AQL of 0.65, which means the defect level from a large sample of the gloves will not exceed 0.65%. Microflex examination gloves meet or exceed applicable standards imposed by ASTM International, formerly known as the American Society for Testing and Materials (ASTM), and the FDA.

Disposable and limited-use gloves are used in medical, forensic, scientific, art, and industrial applications. Gloves are commonly made from flexible materials such as latex, nitrile, chloroprene, and vinyl. While most disposable gloves are designed for either hand, some can be purchased in hand-specific models. They are offered powdered or powder-free; silicone or silicone-free; chlorinated or non-chlorinated; coated or uncoated; with a standard- or extended-length cuff; sterile or non-sterile; and with textured or smooth fingers, fingertips, and palms. A glove’s abrasion, cut, and puncture resistance is defined by glove material and thickness, and may be improved with the use of certain exterior coatings. Abrasion resistance means the glove helps protect the hand from contact with rough objects. Cut resistance means the glove helps protect the hand from blades and sharp instruments. Puncture resistance means the glove helps protect the hand from pointed objects such as pins and needles. Chemical resistance means the glove helps protect the hand from certain chemicals. Chemical resistance is defined by glove material, thickness, and length, as well as the work environment and chemicals likely to be encountered. For information on the chemical resistance of this glove, consult the manufacturer’s chemical resistance guide.

Microflex Corporation manufactures disposable gloves. The company, founded in 1988 and headquartered in Reno, NV, meets International Organization for Standardization (ISO) 13485:2003.

The Microflex Ultra One disposable, chlorinated, powder-free, extended length latex glove has textured fingers. It has a palm thickness of 9.8 mils and a finger thickness of 11.8 mils, and is 11.8″ long from the tip of the middle finger to the edge of the beaded wrist cuff, which is 6.7 mils thick. The extended length cuff helps protect the hand, wrist, and forearm. The glove is suitable for automotive, emergency medical services, industrial safety, and laboratory applications. Latex provides better elasticity than nitrile, chloroprene, or vinyl, and better puncture resistance than vinyl. The glove is textured along the length of the fingers for improved grip compared to a glove with textured fingertips. It has been washed in a diluted chlorine-based solution to help reduce tackiness, providing lower surface friction than a non-chlorinated glove and allowing quick donning in wet environments. This powder-free glove leaves no residue, helping to reduce the likelihood of spreading latex allergens and bacteria compared to a powdered glove. The glove meets the emergency medical glove requirements of the National Fire Protection Association (NFPA) code 1999 (2008 edition). The color of this ambidextrous glove is off-white.

Tensile strength, measured in megapascals (MPa), is the amount of force required to rip a glove; the higher the number, the stronger the glove material. This glove has a tensile strength of 33 MPa before aging and 25 MPa after aging. Elongation measures how much a glove can be stretched before it breaks. It is expressed as a percent of the original length of the glove at the moment of breakage, and the higher the percent, the more the glove can stretch. This glove has an elongation of 750% before aging and 600% after aging. Acceptable Quality Level (AQL) is a Food and Drug Administration (FDA) quality specification for the defect rate in surgical and exam gloves. The FDA requires an AQL of 1.5 for surgical gloves and 2.5 for exam gloves. This glove has an AQL of 1.5, which means the defect level from a large sample of the gloves will not exceed 1.5%. Microflex examination gloves meet or exceed applicable standards imposed by ASTM International, formerly known as the American Society for Testing and Materials (ASTM), and the FDA.

Disposable and limited-use gloves are used in medical, forensic, scientific, art, and industrial applications. Gloves are commonly made from flexible materials such as latex, nitrile, chloroprene, and vinyl. While most disposable gloves are designed for either hand, some can be purchased in hand-specific models. They are offered powdered or powder-free; silicone or silicone-free; chlorinated or non-chlorinated; coated or uncoated; with a standard- or extended-length cuff; sterile or non-sterile; and with textured or smooth fingers, fingertips, and palms. A glove’s abrasion, cut, and puncture resistance is defined by glove material and thickness, and may be improved with the use of certain exterior coatings. Abrasion resistance means the glove helps protect the hand from contact with rough objects. Cut resistance means the glove helps protect the hand from blades and sharp instruments. Puncture resistance means the glove helps protect the hand from pointed objects such as pins and needles. Chemical resistance means the glove helps protect the hand from certain chemicals. Chemical resistance is defined by glove material, thickness, and length, as well as the work environment and chemicals likely to be encountered. For information on the chemical resistance of this glove, consult the manufacturer’s chemical resistance guide.

Microflex Corporation manufactures disposable gloves. The company, founded in 1988 and headquartered in Reno, NV, meets International Organization for Standardization (ISO) 13485:2003.

The Microflex Dura Flock disposable, powder-free, flock-lined, standard length nitrile glove is fully textured along the palm and fingers and has a thin flock lining. It has a palm thickness of 8.0 mils and a finger thickness of 8.0 mils and is 10.6″ long from the tip of the middle finger to the edge of the beaded wrist cuff, which is 5.9 mils thick. It is suitable for automotive and industrial safety applications. Nitrile provides better elasticity than vinyl, better puncture resistance than latex or vinyl, better abrasion resistance than chloroprene, and helps reduce the likelihood of allergic reaction. The glove is textured on the fingertips, fingers, and palm for improved grip, particularly in wet conditions, compared to a glove with textured fingers, and it has a thin cotton flock lining to absorb moisture. This glove has been washed in a diluted chlorine-based solution to help reduce tackiness, providing lower surface friction than a non-chlorinated glove and allowing quick donning in wet environments. This powder-free glove leaves no residue, helping to reduce the likelihood of spreading bacteria compared to a powdered glove. The glove meets the emergency medical glove requirements of the National Fire Protection Association (NFPA) code 1999 (2008 edition). The color of this ambidextrous glove is dark green.

Tensile strength, measured in megapascals (MPa), is the amount of force required to rip a glove; the higher the number, the stronger the glove material. This glove has a tensile strength of 14 MPa before aging and 19 MPa after aging. Elongation measures how much a glove can be stretched before it breaks. It is expressed as a percent of the original length of the glove at the moment of breakage, and the higher the percent, the more the glove can stretch. This glove has an elongation of 500% before aging and 400% after aging. Acceptable Quality Level (AQL) is a Food and Drug Administration (FDA) quality specification for the defect rate in surgical and exam gloves. The FDA requires an AQL of 1.5 for surgical gloves and 2.5 for exam gloves. This glove has an AQL of 2.5, which means the defect level from a large sample of the gloves will not exceed 2.5%. Microflex examination gloves meet or exceed applicable standards imposed by ASTM International, formerly known as the American Society for Testing and Materials (ASTM), and the FDA.

Disposable and limited-use gloves are used in medical, forensic, scientific, art, and industrial applications. Gloves are commonly made from flexible materials such as latex, nitrile, chloroprene, and vinyl. While most disposable gloves are designed for either hand, some can be purchased in hand-specific models. They are offered powdered or powder-free; silicone or silicone-free; chlorinated or non-chlorinated; coated or uncoated; with a standard- or extended-length cuff; sterile or non-sterile; and with textured or smooth fingers, fingertips, and palms. A glove’s abrasion, cut, and puncture resistance is defined by glove material and thickness, and may be improved with the use of certain exterior coatings. Abrasion resistance means the glove helps protect the hand from contact with rough objects. Cut resistance means the glove helps protect the hand from blades and sharp instruments. Puncture resistance means the glove helps protect the hand from pointed objects such as pins and needles. Chemical resistance means the glove helps protect the hand from certain chemicals. Chemical resistance is defined by glove material, thickness, and length, as well as the work environment and chemicals likely to be encountered. For information on the chemical resistance of this glove, consult the manufacturer’s chemical resistance guide.

Microflex Corporation manufactures disposable gloves. The company, founded in 1988 and headquartered in Reno, NV, meets International Organization for Standardization (ISO) 13485:2003.

The Microflex Synetron disposable, chlorinated, powder-free, extended length latex glove is fully textured along the palm and fingers and has an external polymer coating. It has a palm thickness of 9.1 mils and a finger thickness of 11.8 mils, and is 11.4″ long from the tip of the middle finger to the edge of the beaded wrist cuff, which is 6.7 mils thick. The extended length cuff helps protect the hand, wrist, and forearm. The glove is suitable for emergency medical services, industrial safety, laboratory, and law enforcement applications. Latex provides better elasticity than nitrile, chloroprene, or vinyl, and better puncture resistance than vinyl. The glove is textured on the fingertips, fingers, and palms for improved grip, particularly in wet conditions, compared to a glove with textured fingers. A polymer coating has been applied to the external surface to help prevent tapes and adhesives from sticking to the glove. This glove has been washed in a diluted chlorine-based solution to help reduce tackiness, providing lower surface friction than a non-chlorinated glove and allowing quick donning in wet environments. This powder-free glove leaves no residue, helping to reduce the likelihood of spreading latex allergens and bacteria compared to a powdered glove. The glove meets the emergency medical glove requirements of the National Fire Protection Association (NFPA) code 1999 (2008 edition). The color of this ambidextrous glove is off white.

Tensile strength, measured in megapascals (MPa), is the amount of force required to rip a glove; the higher the number, the stronger the glove material. This glove has a tensile strength of 26 MPa before aging and 22 MPa after aging. Elongation measures how much a glove can be stretched before it breaks. It is expressed as a percent of the original length of the glove at the moment of breakage, and the higher the percent, the more the glove can stretch. This glove has an elongation of 700% before aging and 600% after aging. Acceptable Quality Level (AQL) is a Food and Drug Administration (FDA) quality specification for the defect rate in surgical and exam gloves. The FDA requires an AQL of 1.5 for surgical gloves and 2.5 for exam gloves. This glove has an AQL of 1.5, which means the defect level from a large sample of the gloves will not exceed 1.5%. Microflex examination gloves meet or exceed applicable standards imposed by ASTM International, formerly known as the American Society for Testing and Materials (ASTM), and the (FDA).

Disposable and limited-use gloves are used in medical, forensic, scientific, art, and industrial applications. Gloves are commonly made from flexible materials such as latex, nitrile, chloroprene, and vinyl. While most disposable gloves are designed for either hand, some can be purchased in hand-specific models. They are offered powdered or powder-free; silicone or silicone-free; chlorinated or non-chlorinated; coated or uncoated; with a standard- or extended-length cuff; sterile or non-sterile; and with textured or smooth fingers, fingertips, and palms. A glove’s abrasion, cut, and puncture resistance is defined by glove material and thickness, and may be improved with the use of certain exterior coatings. Abrasion resistance means the glove helps protect the hand from contact with rough objects. Cut resistance means the glove helps protect the hand from blades and sharp instruments. Puncture resistance means the glove helps protect the hand from pointed objects such as pins and needles. Chemical resistance means the glove helps protect the hand from certain chemicals. Chemical resistance is defined by glove material, thickness, and length, as well as the work environment and chemicals likely to be encountered. For information on the chemical resistance of this glove, consult the manufacturer’s chemical resistance guide.

Microflex Corporation manufactures disposable gloves. The company, founded in 1988 and headquartered in Reno, NV, meets International Organization for Standardization (ISO) 13485:2003.