Morais et al., 2021 - Google Patents
Filtration efficiency of a large set of COVID-19 face masks commonly used in BrazilMorais et al., 2021
View PDF- Document ID
- 17270858912070870801
- Author
- Morais F
- Sakano V
- Lima L
- Franco M
- Reis D
- Zanchetta L
- Jorge F
- Landulfo E
- Catalani L
- Barbosa H
- John V
- Artaxo P
- Publication year
- Publication venue
- Aerosol Science and Technology
External Links
Snippet
The use of face masks is mandatory in public places in many countries to slow the spread of the COVID-19 pandemic. In developing countries, homemade masks with varying techniques and fabrics are used on the streets. On these fabric masks, the protection against …
- 238000001914 filtration 0 title abstract description 64
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Morais et al. | Filtration efficiency of a large set of COVID-19 face masks commonly used in Brazil | |
| Drewnick et al. | Aerosol filtration efficiency of household materials for homemade face masks: Influence of material properties, particle size, particle electrical charge, face velocity, and leaks | |
| Hao et al. | Factors influencing the filtration performance of homemade face masks | |
| Cherrie et al. | Effectiveness of face masks used to protect Beijing residents against particulate air pollution | |
| Zangmeister et al. | Filtration efficiencies of nanoscale aerosol by cloth mask materials used to slow the spread of SARS-CoV-2 | |
| Rengasamy et al. | Simple respiratory protection—evaluation of the filtration performance of cloth masks and common fabric materials against 20–1000 nm size particles | |
| Duncan et al. | The protective performance of reusable cloth face masks, disposable procedure masks, KN95 masks and N95 respirators: Filtration and total inward leakage | |
| O'Kelly et al. | Ability of fabric face mask materials to filter ultrafine particles at coughing velocity | |
| Akhtar et al. | Can face masks offer protection from airborne sneeze and cough droplets in close-up, face-to-face human interactions?—A quantitative study | |
| Rogak et al. | Properties of materials considered for improvised masks | |
| Li et al. | Assessing the effectiveness of using various face coverings to mitigate the transport of airborne particles produced by coughing indoors | |
| Bagheri et al. | Filtration efficiency, breathability, and reusability of improvised materials for face masks | |
| Joo et al. | Evaluation of particle filtration efficiency of commercially available materials for homemade face mask usage | |
| Long et al. | Measurement of filtration efficiencies of healthcare and consumer materials using modified respirator fit tester setup | |
| Janssen et al. | Commentary: the use of respirators to reduce inhalation of airborne biological agents | |
| Gao et al. | Performance of N95 FFRs against combustion and NaCl aerosols in dry and moderately humid air: Manikin-based study | |
| Brochot et al. | How effective is the filtration of ‘KN95’filtering facepiece respirators during the COVID-19 pandemic? | |
| Guha et al. | Comprehensive characterization of protective face coverings made from household fabrics | |
| Otrisal et al. | Selected respiratory protective devices: Respirators and significance of some markings | |
| Lo | Home-made masks with filtration efficiency for nano-aerosols for community mitigation of COVID-19 pandemic | |
| Pogačnik Krajnc et al. | Size-and time-dependent particle removal efficiency of face masks and improvised respiratory protection equipment used during the COVID-19 pandemic | |
| Pandey et al. | Screening of core filter layer for the development of respiratory mask to combat COVID-19 | |
| Buzzin et al. | Assessing the consequences of prolonged usage of disposable face masks | |
| Joshi et al. | Quick laboratory methodology for determining the particle filtration efficiency of face masks/respirators in the wake of COVID-19 pandemic | |
| Ramirez et al. | The effect of simulated air conditions on N95 filtering facepiece respirators performance |