|
Abstract No.: |
|
Scheduled at:
|
Thursday, May 22, 2014, Hall A 4:20 PM Quality, Enviroment, Health & Safety
|
|
Title: |
Emissions in thermal spraying − development of a suitable test method and evaluation of measurements in laboratory as well as in industrial scale
|
|
Authors: |
Thomas Frederik Linke* / Institut für Oberflächentechnik RWTH Aachen University
, Germany Kirsten Bobzin / Surface Engineering Institute, RWTH Aachen University, Germany Mehmet Öte/ Surface Engineering Institute, RWTH Aachen University, Germany Wolfgang Dott/ Institute of Hygiene and Environmental Medicine, University Hospital RTWH Aachen University, Germany Manfred Möller/ Institute of Hygiene and Environmental Medicine, University Hospital RTWH Aachen University, Germany
|
|
Abstract: |
In comparison to associated technologies e.g. welding, only limited knowledge exists concerning health related aspects of thermal spray emissions. Furthermore Thermal Spraying is known as a very versatile technique which is employed in multiple applications and industries utilising various feedstock materials as well as technologies. This vast diversity results in a complex situation in order to assess possible health hazards as well as to comply with future legal regulations. Within this work the development of a universal test method, adapted to the requirements of thermal spraying, as well as measurements of Thermal Spray emissions in laboratory as well as industrial scale are presented.
Requirements for a test method are the ability to characterize the particulate load as well as the chemical composition of the particulate matter. The latter one including the differentiation of the oxidation state for Chromium, which is motivated by significant differences in toxicity between Cr(III) as well as the carcinogenic Cr(VI). The developed method based on HPLC/ICP-MS as well as laser photometry was used to perform emission measurements. Within these tests different processes (HVOF, APS, EAW) as well as feedstock materials containing Cr, Ni, WC and/or Co were examined in different situations as well as measurement positions, in order to assess possible treats.
|
|