Howard Leight MAX-1 Earplugs - Uncorded
Part # 4008-200
Login For Pricing
Product Details
Sold by the Box of 200 Pairs
Howard Leight MAX-1 Earplugs is the Maximum noise-blocking performance in a single-use design. The NRR 33 rating makes the MAX the highest rated disposable earplug in the U.S. Easy-to-insert contoured shape resists backing out of ear canal, while soft foam delivers long-lasting comfort. Pre-shaped foam earplugs feature a smooth outer skin for maximum user comfort. The smooth, soil-resistant skin helps prevent dirt from penetrating the surface prior to insertion. • The world's most-used polyurethane foam earplug.
• Self-adjusting polyurethane foam expands to fit virtually every wearer.
• Bell shape design delivers maximum in-ear comfort and easy insertion.
• Polyurethane foam is non-irritating and non-allergenic.
• Smooth, soil-resistant closed cell-foam skin prevents dirt build-up.
• Reusable - Disposable
• Box Quantity: 200 Pair individually wrapped in poly bags.
• Noise reduction rating: NRR: 33 dB. CSA Class AL.
•Meets ANSI Standards ANSI S3.19 Requirements.
Howard Leight MAX-1 Earplugs is the Maximum noise-blocking performance in a single-use design. The NRR 33 rating makes the MAX the highest rated disposable earplug in the U.S. Easy-to-insert contoured shape resists backing out of ear canal, while soft foam delivers long-lasting comfort. Pre-shaped foam earplugs feature a smooth outer skin for maximum user comfort. The smooth, soil-resistant skin helps prevent dirt from penetrating the surface prior to insertion. • The world's most-used polyurethane foam earplug.
• Self-adjusting polyurethane foam expands to fit virtually every wearer.
• Bell shape design delivers maximum in-ear comfort and easy insertion.
• Polyurethane foam is non-irritating and non-allergenic.
• Smooth, soil-resistant closed cell-foam skin prevents dirt build-up.
• Reusable - Disposable
• Box Quantity: 200 Pair individually wrapped in poly bags.
• Noise reduction rating: NRR: 33 dB. CSA Class AL.
•Meets ANSI Standards ANSI S3.19 Requirements.