Ear plugs are the most popular choice for hearing protection because they are seen as the most economical solution and can be easily worn with other PPE. PIP offers a variety of styles in single-use, multiple-use, corded or uncorded, in order to best fit your application and provide the proper level of noise reduction.
BSF-1
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
NP267HPF210C
BSF-30
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
NP267HPR410C
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
NP267HPB410
PF-30
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
NP267HPF210
PF-1
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
BSF-D
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
NP267HPF610C
NP267HPF610
BSF-1B
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
NP267HPF510C
NP267HPF510
267-HPR320C
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
PF-D
PIP® has collaborated with global partners like Dyneema® to develop bio-based ultra-high molecular weight polyethylene fiber delivers the same performance as conventional HPPE fibers, but with a lower carbon footprint. This innovative technique utilizes the mass balance approach and further reduces our reliance on fossil fuel-based resources.
NP267HPF810
NP267HPF410C
NP267HPF210D
NP267HPR410D
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
NP267HPF410
NP267HPF710
NP267HPD510250
NP267HPF5101
NP267HPF910
NP267HPF2101
NP267HPF810C
NP267HPF910C
NP267HPR410
Reusing or laundering products not only reduces cost, but also reduces the amount of waste that is put into our landfills in turn reducing the environmental impact.
NP267HPF610D
NP267HPF310
NP267HPF310C
NP267HPF810D
NP267HPF8101
NP267HPF9101