Add to ORKGUltra-fine particles are increasingly being recognized as a potential threat to health. Aerosols in workplace environments may come from a wide variety of sources, depending on the type of activity and processes taking place. To quantify the level of risks associated with engineered nanomaterials, research needs to first quantify the level of nanoparticles\u27 exposure encountered in different construction activities. Therefore, the objective of this study is to evaluate the potential inhalation exposure risk associated with Hot-Mix Asphalt (HMA) and concrete preparation activities in the laboratory. To achieve this objective, the number concentration, size distribution, surface area, and mass concentration were measured for different activ...
Building activity is a significant source of atmospheric contamination by ultrafine dust. Cognizant ...
The overall aim of this project was to contribute to existing knowledge regarding methods for measur...
OBJECTIVE: To investigate the emission sources of fine and ultrafine particles (UFPs) during brazin...
Although nanomaterials possess new properties and their industrial application generates promising o...
Air pollution is a public health issue that may cause health problems for workers in the constructio...
Recent epidemiologic studies suggest that nanoparticles or ultrafine particles are correlated with n...
Background The aim of the presented work was the assessment of occupational exposure to nanoparticle...
With the increasing use of titanium dioxide (TiO2) nanoparticles in self-cleaning materials such as ...
With the increasing interest in the potential benefits of nanotechnologies, concern is still growing...
BACKGROUND: Exposure to airborne particles in occupational environments can lead to both acute and l...
Integral part of risk assessment of workplaces includes detailed characterization of airborne aeroso...
Additive manufacturing that creates three-dimensional objects by adding layer uponlayer of material ...
Ultrafine particles (UFPs) can be released unintentionally during metal additive manufacturing (AM)....
Background: Nano-specific inhalation exposure models could potentially be effective tools to assess ...
Nanoparticles (NP) are being used in rapidly increasing quantities which has resulted in concerns ab...
Building activity is a significant source of atmospheric contamination by ultrafine dust. Cognizant ...
The overall aim of this project was to contribute to existing knowledge regarding methods for measur...
OBJECTIVE: To investigate the emission sources of fine and ultrafine particles (UFPs) during brazin...
Although nanomaterials possess new properties and their industrial application generates promising o...
Air pollution is a public health issue that may cause health problems for workers in the constructio...
Recent epidemiologic studies suggest that nanoparticles or ultrafine particles are correlated with n...
Background The aim of the presented work was the assessment of occupational exposure to nanoparticle...
With the increasing use of titanium dioxide (TiO2) nanoparticles in self-cleaning materials such as ...
With the increasing interest in the potential benefits of nanotechnologies, concern is still growing...
BACKGROUND: Exposure to airborne particles in occupational environments can lead to both acute and l...
Integral part of risk assessment of workplaces includes detailed characterization of airborne aeroso...
Additive manufacturing that creates three-dimensional objects by adding layer uponlayer of material ...
Ultrafine particles (UFPs) can be released unintentionally during metal additive manufacturing (AM)....
Background: Nano-specific inhalation exposure models could potentially be effective tools to assess ...
Nanoparticles (NP) are being used in rapidly increasing quantities which has resulted in concerns ab...
Building activity is a significant source of atmospheric contamination by ultrafine dust. Cognizant ...
The overall aim of this project was to contribute to existing knowledge regarding methods for measur...
OBJECTIVE: To investigate the emission sources of fine and ultrafine particles (UFPs) during brazin...