Add to ORKGNumerous metal release data have been published by the Div. Surface and Corrosion Science and the AISI 316L stainless steel particles’ behavior in artificial lysosomal fluid (ALF). This study aims to evaluate the effect of chemical components in ALF on metal release from stainless steel particles with a bottom-up methodology. Two sizes of 316L stainless steel particles were used to assess the particle size influence on the metal release in detail. The results show that organic complexing agents e.g. lactate, tartrate and citrate are responsible for the high metal release rate in ALF. Correlations between the metal release rate and the number of carboxyl groups of the organic ligand were observed. Moreover, metal release data in this study i...
AbstractDifferences in surface oxide characteristics and extent of nickel release have been investig...
AbstractThe European chemical framework REACH requires that hazards and risks posed by chemicals, in...
Background: The mechanisms by which mineral fibers induce adverse effects in vivo are still not well...
Humans are exposed to metals and metal-containing materials daily, either conscious, e.g. using meta...
Knowledge on metal release behaviour of stainless steels used in food processing applications and co...
With increasing environmental awareness, the desire to protect human beings and the environment from...
Highly corrosion-resistant alloys are used in sensitive environments such as the human body and food...
When assessing hazards of metals, alloys, and metal-containing items, the metal release (bioaccessib...
Corrosion and metal release mechanisms of CoCrMo alloys are at human biological conditions not fully...
Inhalational exposure to dust from engineered stone (ES), also known as artificial or composite ston...
AbstractStainless steel is widely used in biological environments, for example as implant material o...
Abstract Background Production of ferrochromium alloys (FeCr), master alloys for stainless steel man...
Exposure to metal particles via the inhalation route unavoidably takes place at occupational setting...
Conventional supercritical fluid extraction (SFE) system are constructed using stainless steel due t...
This study shows a reliable procedure to prescribe the preferential use of a material for food conta...
AbstractDifferences in surface oxide characteristics and extent of nickel release have been investig...
AbstractThe European chemical framework REACH requires that hazards and risks posed by chemicals, in...
Background: The mechanisms by which mineral fibers induce adverse effects in vivo are still not well...
Humans are exposed to metals and metal-containing materials daily, either conscious, e.g. using meta...
Knowledge on metal release behaviour of stainless steels used in food processing applications and co...
With increasing environmental awareness, the desire to protect human beings and the environment from...
Highly corrosion-resistant alloys are used in sensitive environments such as the human body and food...
When assessing hazards of metals, alloys, and metal-containing items, the metal release (bioaccessib...
Corrosion and metal release mechanisms of CoCrMo alloys are at human biological conditions not fully...
Inhalational exposure to dust from engineered stone (ES), also known as artificial or composite ston...
AbstractStainless steel is widely used in biological environments, for example as implant material o...
Abstract Background Production of ferrochromium alloys (FeCr), master alloys for stainless steel man...
Exposure to metal particles via the inhalation route unavoidably takes place at occupational setting...
Conventional supercritical fluid extraction (SFE) system are constructed using stainless steel due t...
This study shows a reliable procedure to prescribe the preferential use of a material for food conta...
AbstractDifferences in surface oxide characteristics and extent of nickel release have been investig...
AbstractThe European chemical framework REACH requires that hazards and risks posed by chemicals, in...
Background: The mechanisms by which mineral fibers induce adverse effects in vivo are still not well...