Abstract:Conventional thermal spraying processes are almost exclusively carried out in an air atmosphere, resulting in the oxidation of the particle surfaces and interfaces within the coating and between the substrate and coating. Furthermore, the initial process of surface activation conventionally takes place in an air atmosphere, preventing an oxide-free interfacial transition. Consequently, the application of spraying materials with high oxygen affinity represents a major challenge. To overcome these issues, the pr… Show more
“…Hence, additional bonding mechanisms between the substrate and the coating can be activated compared to conventional TWAS. [55] This is also shown in the adhesive tensile strength (ATS) tests carried out by Rodriguez Diaz et al The tests were carried out in accordance with the standard DIN EN ISO 14 916 (sample type B) using Ultrabond 100 as the adhesive. Figure 7 depicts the results of those tests.…”
Section: Thermal Sprayingmentioning
confidence: 94%
“…Hence, additional bonding mechanisms between the substrate and the coating can be activated compared to conventional TWAS. [ 55 ]…”
Section: Oxygen‐free Production Processesmentioning
“…Hence, additional bonding mechanisms between the substrate and the coating can be activated compared to conventional TWAS. [55] This is also shown in the adhesive tensile strength (ATS) tests carried out by Rodriguez Diaz et al The tests were carried out in accordance with the standard DIN EN ISO 14 916 (sample type B) using Ultrabond 100 as the adhesive. Figure 7 depicts the results of those tests.…”
Section: Thermal Sprayingmentioning
confidence: 94%
“…Hence, additional bonding mechanisms between the substrate and the coating can be activated compared to conventional TWAS. [ 55 ]…”
Section: Oxygen‐free Production Processesmentioning
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