Evaluation of Rare‐Earth Modified ZrB 2 – SiC Ablation Resistance Using an Oxyacetylene Torch

Rare‐earth modified ZrB 2 – SiC coatings were prepared via mechanical mixing Sm 2 O 3 or Tm 2 O 3 powders with spray‐dried ZrB 2 , or by chemically doping samarium ions into spray‐dried ZrB 2 . In either approach, SiC powders were also added and coatings were fabricated via shrouded air plasma spray. An oxyacetylene torch was utilized to evaluate the coatings under high heat flux conditions for hold times of 30 and 60 s. The resulting phases and microstructures were evaluated as a function of rare‐earth type, modification approach, and ablation time. A brittle m ‐ ZrO 2 scale was observed in the ZrB 2 / SiC ‐only coating after ablative tests; during cooling this scale detached from the unreacted coating. In contrast, rare‐earth modified coatings formed a protective oxide scale consisting primarily of either Sm 0.2 Zr 0.8 O 1.9 or Tm 0.2 Zr 0.8 O 1.9 , along with small amount of m ‐ ZrO 2 . These rare‐earth oxide scales displayed high thermal stability and remained adhered to the unreacted coating during heating and cooling, offering additional oxidation protection.