Type II R - BFE (bacteria filtration efficiency) > 98% + splash resistance, masks that are fluid resistant and provide the wearer protection against large droplets, splashes, or sprays of bodily or other hazardous fluids. All masks are 3 layers, latex and fiberglass free, with elastic earloops and equipped with a forming brace which enables good shaping with regards to the face. 50 pcs in a paper box.
Breathable facial masks are made of high quality facial mask non-woven fabric, filter layer and soft fiber layer. The 3-layer masks are more secure and can effectively keep away the hazards such as droplets, germs, viruses, spashes and so on.
Soft and comfortable ear loops could eliminate pressure to the ears for maximum comfort. Even if you wear it for hours on end, you won't feel pain in your ears. The high elasticity design fits almost most of face shapes, makes the masks are suitable for a variety of users for instant protection.
The disposable mask is disposable and single-use. When the mask is wet or dirty, please replace it. At the same time, it is recommended to wear a new one after wearing the mask for more than 4 hours.
EN 14683, a European standard, describes the requirements and testing methods of medical face masks. This standard has been published with the following title: EN 14683 + AC : 2019 . Medical face masks - Requirements and test methods follow the European norm. The production of the product follows ISO 13485.
The standard in question includes the design, production, performance requirements and test methods of medical face masks designed to limit the contamination of infectious substances from staff to patients, especially during surgical procedures.
Basically, this standard regulates the bacterial filtering efficiency of medical face masks. It presents the design, production and performance requirements and test methods of medical face masks used to control the transmission of infectious agents from employees to patients in medical areas where surgical interventions are performed. Said masks have a suitable microbial barrier and are also effective in reducing emissions from a nose or mouth of a carrier or a patient with clinical symptoms.
By bacterial filtering efficiency, it is meant to measure the resistance of a respiratory material to the penetration of bacteria and microorganisms. Bacterial filtration efficiency testing is performed on filtering materials and devices designed to protect against biological aerosols such as face masks, surgical gowns, headgear and air filters. These tests are required both for the EN 14683 standard and for the following standards developed by the American Testing and Materials Organization (ASTM):
ASTM F2100-11 Standard specification for the performance of materials used in medical face masks
Standard test method to evaluate the bacterial filtration efficiency (BFE) of medical face mask materials using the biological aerosol of Staphylococcus aureus.
The threat of infectious microorganisms arises in many ways during operations and other medical interventions. The main sources of contamination are the mouths and noses of employees. However, especially in epidemic situations, it is necessary to use medical masks not only by patients and healthcare professionals but also by the society to minimize the risk of spread of infections.
Breathable facial masks are made of high quality facial mask non-woven fabric, filter layer and soft fiber layer. The 3-layer masks are more secure and can effectively keep away the hazards such as droplets, germs, viruses, spashes and so on.
Soft and comfortable ear loops could eliminate pressure to the ears for maximum comfort. Even if you wear it for hours on end, you won't feel pain in your ears. The high elasticity design fits almost most of face shapes, makes the masks are suitable for a variety of users for instant protection.
The disposable mask is disposable and single-use. When the mask is wet or dirty, please replace it. At the same time, it is recommended to wear a new one after wearing the mask for more than 4 hours.
EN 14683, a European standard, describes the requirements and testing methods of medical face masks. This standard has been published with the following title: EN 14683 + AC : 2019 . Medical face masks - Requirements and test methods follow the European norm. The production of the product follows ISO 13485.
The standard in question includes the design, production, performance requirements and test methods of medical face masks designed to limit the contamination of infectious substances from staff to patients, especially during surgical procedures.
Basically, this standard regulates the bacterial filtering efficiency of medical face masks. It presents the design, production and performance requirements and test methods of medical face masks used to control the transmission of infectious agents from employees to patients in medical areas where surgical interventions are performed. Said masks have a suitable microbial barrier and are also effective in reducing emissions from a nose or mouth of a carrier or a patient with clinical symptoms.
By bacterial filtering efficiency, it is meant to measure the resistance of a respiratory material to the penetration of bacteria and microorganisms. Bacterial filtration efficiency testing is performed on filtering materials and devices designed to protect against biological aerosols such as face masks, surgical gowns, headgear and air filters. These tests are required both for the EN 14683 standard and for the following standards developed by the American Testing and Materials Organization (ASTM):
ASTM F2100-11 Standard specification for the performance of materials used in medical face masks
Standard test method to evaluate the bacterial filtration efficiency (BFE) of medical face mask materials using the biological aerosol of Staphylococcus aureus.
The threat of infectious microorganisms arises in many ways during operations and other medical interventions. The main sources of contamination are the mouths and noses of employees. However, especially in epidemic situations, it is necessary to use medical masks not only by patients and healthcare professionals but also by the society to minimize the risk of spread of infections.
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