Atrex Padded Safety Eyewear (1 Dozen) - Pyramex PMX

$25.48 - $102.83
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Regular price $88.25
Regular price Sale price $88.25
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Availability: Available to order
SKU: 12 EA of SB10810DT + 12 EA of 108STRAP
Regular price $88.25
Regular price Sale price $88.25

12 Pairs Pyramex Atrex Padded Safety Glasses with Optional Neck Strap

Padded black or black and red frame with various lenses.

  1. Inner foam padding
  2. Built-in rubber nosepiece.
  3. Durable frame features dual-injected straight-backed temples.
  4. Anti-fog lenses.
  5. Scratch resistant polycarbonate lens.


Frequently Asked Questions

Know your gear, protect what matters

Shipping Policy

Shipping policy

All orders are subject to manufacturer back orders. If a product is not immediately available, a member of our customer service team will reach out to you to discuss your options, including a full and immediate refund.

 


DOMESTIC ORDERS

 

Free Fed Ex Ground Shipping on all orders over $250 being delivered within the contiguous (conterminous) United States. All orders under $250 being delivered within the contiguous (conterminous) United States will be charged a flat rate of $25 for Fed Ex Ground Shipping.

 

A flat rate of $150 will appear at checkout for select products being delivered to AK/HI. If this flat rate is not an option, you will have to contact us for a custom shipping quote. 


Most orders will enter the Fed Ex system in Detroit, Michigan area in 1 to 2 business days after the order is placed.

 

Fed Ex Ground transit times: "1–5 business days within the contiguous U.S., 3–7 business days to and from Alaska and Hawaii. Check transit times based on your zip code: http://www.fedex.com/grd/maps/ShowMapEntry.do

 


INTERNATIONAL ORDERSA

A flat rate of $150 will appear at checkout for select products being delivered to US Territories, Armed Forces, Canada, Mexico, and various Caribbean nations. If this flat rate is not an option, you will have to contact us for a custom shipping quote.

 

Novarlo is not responsible for duties and fees that may be applied by your country. It is your responsibility to understand what the charges will be as we do not accept returns for any reason.

 

**FOR EXPEDITED, OVERNIGHT, OR SERVICE PERSONALIZED IN ANY WAY, PLEASE CALL (833) 408-0500 AND WE WILL BE HAPPY TO ACCOMMODATE YOUR CIRCUMSTANCES TO THE BEST OF OUR ABILITIES!**

 

CONTACT INFO
Address
31435 Stephenson Hwy
Madison Heights, MI 48071
Phone
Main: (833) 408-0500
Email: sales@novarlo.com

Refund Policy

Refund policy

 

Returns

 

We’ll always do our best to put it right if, occasionally, a product may not be quite right or is surplus to requirements.

 

We accept refunds on non-branded, non-customized items. Other products, unfortunately, usually not. If you want to know if we can make an exception, please call us at (833) 408-0500 BEFORE placing your order. (Re-stocking fees are likely to apply.)

 

Thank you for your understanding.

 

CONTACT INFO
Address
31435 Stephenson Hwy
Madison Heights, MI 48071
Phone
Main: (833) 408-0500
Email sales@novarlo.com

What does ANSI Z87.1 certify in safety eyewear?

ANSI Z87.1 is the U.S. standard that certifies eye and face protection devices—like safety glasses, goggles, and face shields—for use in environments where there is a risk of impact, chemical splash, dust, radiation, or other eye hazards. Developed by the American National Standards Institute (ANSI), this standard ensures that protective eyewear meets strict performance criteria for workplace safety.

 

The standard evaluates eyewear across several hazard categories, including:

Impact resistance (rated as “Z87+” for high-impact protection)

Dust and splash protection

Optical clarity and coverage

UV, infrared, and visible light filtering

 

To be ANSI Z87.1 certified, eyewear must pass a series of tests such as high-velocity impact, drop ball tests, and durability assessments. The eyewear is then marked with a Z87 or Z87+ stamp to indicate its level of protection. The "+" symbol indicates the product has passed high-mass and high-velocity impact tests.

 

In summary, ANSI Z87.1 certification assures users that their eyewear has been tested to protect against a range of workplace eye hazards. When selecting eye protection, always look for the Z87 mark to ensure compliance with safety standards and proper protection for the task at hand.

What is the difference between ANSI Z87+ and Z87.1?

ANSI Z87.1 refers to the overall U.S. standard for occupational and educational eye and face protection, established by the American National Standards Institute (ANSI). It defines the requirements for various types of protective eyewear—covering everything from impact resistance to splash and dust protection, optical clarity, and coverage.

 

Z87+, on the other hand, is a marking within the Z87.1 standard that indicates the eyewear has passed high-impact testing. While all certified eyewear must meet basic impact requirements (marked simply as “Z87”), those that carry the “Z87+” marking offer enhanced protection against high-velocity and high-mass impacts. This is especially critical for environments where flying debris, tools, or projectiles pose a greater risk.

 

To qualify as Z87+, lenses must withstand a steel ball traveling at high speed and a heavy object dropped from height—tests that simulate real-world industrial hazards. Frames must also pass durability and structural integrity tests under pressure.

 

In summary, Z87.1 is the standard, while Z87+ indicates a higher level of impact protection within that standard. If you're working in heavy-duty, high-risk environments like construction, metalworking, or maintenance, Z87+ eyewear is the recommended choice for added safety.

What is ANSI Z87W and when is it used in welding?

ANSI Z87W refers to a specific marking under the ANSI Z87.1 standard that designates welding-specific eye protection. The “W” indicates that the eyewear has a welding filter lens, designed to protect the eyes from the intense light, ultraviolet (UV), and infrared (IR) radiation produced during welding, cutting, or brazing operations.

 

These lenses come with a shade number, such as W3, W5, or W10, that indicates how dark the lens is. The higher the number, the darker the filter and the greater the protection against intense light. For example, W3 or W5 may be suitable for light torch work or brazing, while W10 or above is typically needed for arc welding. The correct shade depends on the type of welding and the intensity of the arc or flame.

 

Welding lenses marked with Z87W must also meet impact and durability requirements, ensuring they can withstand flying debris or sparks in addition to filtering harmful radiation. These lenses can be found in goggles, helmets, or face shields and are commonly used in metal fabrication, construction, shipbuilding, and similar trades.

 

In summary, ANSI Z87W identifies protective eyewear with built-in welding filters, helping ensure safe and compliant use in welding applications. Choosing the correct lens shade is key to preventing eye injuries like welder’s flash or long-term vision damage.

What does CSA Z94.3 mean for eye protection?

CSA Z94.3 is the Canadian standard for eye and face protectors, developed by the Canadian Standards Association (CSA). It sets out the requirements for protective eyewear used in workplaces and environments where there's a risk of impact, radiation, splash, or other hazards that could harm the eyes or face. This standard is widely recognized across Canadian industries and often mandated by provincial safety regulations.

 

Products certified to CSA Z94.3 must meet rigorous testing for impact resistance, optical clarity, coverage, and durability. This includes high-velocity impact tests to ensure lenses and frames can withstand flying debris and other hazards commonly encountered in construction, manufacturing, welding, and laboratory work.

 

Unlike general-purpose eyewear, CSA-certified eye protection is specifically engineered and marked for occupational safety use, often featuring side shields, anti-fog coatings, and UV filtering. The certification is clearly marked on the frame or lens, providing users with visible confirmation that the product meets Canadian safety standards.

 

In summary, CSA Z94.3 ensures that eye and face protection products used in Canada meet strict performance and safety criteria. If you're working in any setting with eye hazards, using CSA-certified eyewear is essential for compliance and effective protection.

What is CE EN166 and how is it applied in PPE eyewear?

CE EN166 is a European standard that specifies the general requirements for personal eye protection. It applies to all types of protective eyewear—such as safety glasses, goggles, and face shields—and sets the baseline for performance in terms of optical clarity, mechanical strength, field of vision, and resistance to hazards like impact, heat, and chemical splash.

 

Eyewear that complies with EN166 must pass various tests depending on its intended use. These may include high-speed particle impact tests, resistance to fogging, protection against droplets and splashes, and durability under extreme temperatures. Products are marked with different codes or symbols (e.g., “F” for low-energy impact or “B” for medium impact) to show which specific protection levels they offer.

 

In addition to the base EN166 standard, specific applications may also require compliance with related standards like EN170 (UV protection) or EN172 (solar glare protection). The CE mark on EN166-certified eyewear confirms that the product meets the European Union’s health and safety regulations for PPE.

 

In summary, CE EN166 is the core safety standard for protective eyewear in Europe, ensuring that PPE eyewear is tested and labeled for real-world workplace risks. It's essential for industries such as manufacturing, construction, chemical handling, and medical environments where eye safety is a critical concern.

What is the difference between M4 and M5 Ariat pants?

The difference between M4 and M5 Ariat pants comes down to fit, rise, and leg style, giving wearers options based on personal preference and comfort. Both styles are part of Ariat’s workwear and western wear collections, designed for durability, function, and long-lasting comfort in demanding environments.

 

M4 pants feature a low-rise waist with a relaxed fit through the hip and thigh, and a boot-cut leg opening. This style offers a more generous cut, making them ideal for those who prefer a roomier feel or need added mobility for bending, lifting, or riding.

 

M5 pants have a slightly higher rise and a slimmer fit through the thigh and seat, also with a boot-cut leg. They offer a more modern, streamlined appearance while still providing flexibility and toughness for active work or riding tasks.

 

In short, choose M4 for a looser, more relaxed fit, and M5 if you prefer a closer-fitting, more tailored look. Both deliver Ariat’s signature durability, but the best choice depends on your comfort needs and style preference.

What are the pros and cons of 1/2 masks vs PAPR respirators?

1/2 masks (half-face respirators) and PAPRs (Powered Air-Purifying Respirators) both offer protection against airborne hazards, but they differ significantly in design, protection level, and comfort. Choosing between them depends on the work environment, duration of use, and specific hazards.

 

1/2 masks are compact, lightweight, and cost-effective. They rely on the wearer’s lung power to draw air through filters or cartridges and are suitable for tasks involving dust, fumes, and light chemical exposure. However, they can become uncomfortable during long shifts, especially in hot or physically demanding environments, and require a tight facial seal—which may be compromised by facial hair or eyewear.

 

PAPRs, on the other hand, use a battery-powered blower to actively deliver filtered air to the wearer’s facepiece or hood. This makes them much more comfortable for extended wear, reduces breathing resistance, and offers higher levels of protection (APF of 25 to 1,000 depending on the system). The downside is that PAPRs are bulkier, more expensive, and require battery maintenance and regular cleaning.

 

In summary, 1/2 masks are ideal for short-term use in low-to-moderate risk environments, while PAPRs are better suited for high-risk or long-duration tasks where comfort, airflow, and maximum protection are critical. The right choice depends on your job’s specific hazards and working conditions.

What is the difference between Type I and Type II hard hats?

The primary difference between Type I and Type II hard hats lies in the direction of impact protection they are designed to provide. This classification is defined by both ANSI Z89.1 (U.S.) and CSA Z94.1 (Canada) standards, which help employers choose appropriate head protection based on workplace hazards.

 

Type I hard hats are designed to protect against impacts to the top of the head only—such as falling tools or debris. They are commonly used in traditional construction and industrial settings where the main risk comes from overhead hazards.

 

Type II hard hats, on the other hand, offer protection against both top and lateral (side) impacts. They have additional padding and structural features to absorb blows from the sides and front or back of the helmet. This makes them suitable for work environments where the risk of being struck from various angles is higher, such as confined spaces, utility work, or areas with moving equipment.

 

In summary, Type I hard hats protect from overhead impact, while Type II hard hats offer all-around protection, including side impacts. Choosing the right type ensures that workers have the appropriate level of safety based on the hazards present in their specific work environment.

What glove cut level do I need for my industry?

The cut level you need depends on the type of work and the sharp hazards present in your industry. Glove cut resistance is rated using the ANSI/ISEA 105 standard, which assigns levels from A1 to A9, with A1 offering the lowest protection and A9 the highest. These levels reflect the amount of force (in grams) required to cut through the glove material with a sharp blade.

 

For light-duty tasks like general assembly, maintenance, or warehouse work, a glove rated A1 to A3 is typically sufficient. These gloves provide basic protection against light cuts from tools, packaging, or materials handling. Industries like automotive or light manufacturing often fall into this category.

 

If you work with sharp materials such as glass, sheet metal, or wire—common in construction, HVAC, electrical, or metal fabrication—you’ll likely need a glove rated A4 to A6. For extreme hazards, such as heavy-duty metal stamping, high-risk cut exposure, or working around blades, A7 to A9 gloves are recommended.

 

In summary, selecting the right glove cut level involves matching the hazard severity to the level of protection. Always conduct a hazard assessment of your tasks, and when in doubt, choose a higher cut level to ensure worker safety without compromising dexterity and comfort.

Which FR category should I choose for electrical work?

The appropriate Flame-Resistant (FR) category for electrical work depends on the level of arc flash hazard present in your environment. These categories, defined by NFPA 70E, are referred to as Arc Flash PPE Categories (CAT 1–4) and are based on the incident energy level—measured in calories per square centimeter (cal/cm²)—that workers could be exposed to during an arc flash event.

 

CAT 1 (minimum 4 cal/cm²): Basic protection for low-risk electrical tasks such as switching low-voltage panels or general maintenance.

 

CAT 2 (minimum 8 cal/cm²): Suitable for more common electrical tasks like panel work, circuit testing, and breaker switching.

 

CAT 3 (minimum 25 cal/cm²) and CAT 4 (minimum 40 cal/cm²): Designed for high-risk work involving larger electrical equipment or high-voltage systems, where incident energy is much higher.

 

To determine which category you need, your employer must perform an arc flash risk assessment that calculates the incident energy levels at different work zones. Based on that, you can select FR garments and gear with an arc rating (ATPV or EBT) equal to or greater than the expected exposure.

 

In summary, the FR category for electrical work should match the calculated arc flash risk in your environment. Always wear PPE that meets or exceeds the required CAT level, including FR clothing, face protection, gloves, and hearing protection as specified by NFPA 70E and your company’s safety protocols.

What is the best glove for chemical abrasion and puncture?

The best glove for protection against chemical exposure, abrasion, and puncture is one that’s specifically tested and rated for all three hazards. Since no single glove material protects against all risks equally, the ideal choice often combines chemical-resistant materials (like nitrile, neoprene, or butyl rubber) with mechanical strength features such as reinforced palms or multi-layer construction.

 

For chemical resistance, look for gloves that comply with EN ISO 374 or ASTM standards and are labeled for the specific chemicals you're handling. Nitrile gloves offer good resistance to oils, fuels, and many solvents, while butyl rubber is better for ketones and esters. Manufacturers often provide chemical compatibility charts to help guide selection.

 

For abrasion and puncture resistance, refer to the ANSI/ISEA 105 and EN 388 ratings. Choose gloves with an abrasion resistance level of 4–6 and puncture resistance level of 3 or higher. Some chemical-resistant gloves now include cut- and puncture-resistant liners to offer multi-hazard protection without sacrificing flexibility.

 

In summary, the best glove is one that matches the specific chemicals and mechanical hazards of your task. Always perform a hazard assessment and select gloves that are certified for chemical resistance and rated for mechanical durability to ensure safe, long-lasting protection.