Chaichana, W.; Chanachai, S.; Insee, K.; Benjakul, S.; Naruphontjirakul, P.; Panpisut, P.; Chetpakdeechit, W.
The Evaluation of Degree of Monomer Conversion, Biaxial Flexural Strength, and Surface Mineral Precipitation of Orthodontic Adhesive Containing Sr-Bioactive Glass Nanoparticles, Calcium Phosphate, and Andrographolide. Materials 2025, 18, 2278.
https://doi.org/10.3390/ma18102278
AMA Style
Chaichana W, Chanachai S, Insee K, Benjakul S, Naruphontjirakul P, Panpisut P, Chetpakdeechit W.
The Evaluation of Degree of Monomer Conversion, Biaxial Flexural Strength, and Surface Mineral Precipitation of Orthodontic Adhesive Containing Sr-Bioactive Glass Nanoparticles, Calcium Phosphate, and Andrographolide. Materials. 2025; 18(10):2278.
https://doi.org/10.3390/ma18102278
Chicago/Turabian Style
Chaichana, Wirinrat, Supachai Chanachai, Kanlaya Insee, Sutiwa Benjakul, Parichart Naruphontjirakul, Piyaphong Panpisut, and Woranuch Chetpakdeechit.
2025. "The Evaluation of Degree of Monomer Conversion, Biaxial Flexural Strength, and Surface Mineral Precipitation of Orthodontic Adhesive Containing Sr-Bioactive Glass Nanoparticles, Calcium Phosphate, and Andrographolide" Materials 18, no. 10: 2278.
https://doi.org/10.3390/ma18102278
APA Style
Chaichana, W., Chanachai, S., Insee, K., Benjakul, S., Naruphontjirakul, P., Panpisut, P., & Chetpakdeechit, W.
(2025). The Evaluation of Degree of Monomer Conversion, Biaxial Flexural Strength, and Surface Mineral Precipitation of Orthodontic Adhesive Containing Sr-Bioactive Glass Nanoparticles, Calcium Phosphate, and Andrographolide. Materials, 18(10), 2278.
https://doi.org/10.3390/ma18102278
