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Asst. Prof. Dr.
Pornsuda Bomlai
Assistant Professor
- pornsuda.b@psu.ac.th
- 8389
- Material Science
- Division of Physical Science
- Research Network
- Center of Excellence in Nanotechnology for Energy
Education
Graduated Year
Degree
Country
2004
D.Sc. (Materials science) Chiangmai University
Thailand
2001
M.Sc. (Materials science) Chiangmai University
Thailand
1998
B.Sc. (Physics) Prince of Songkla University
Thailand
Specialist / Interested
Compositions
Microstructure and electrical property relationships of ferroelectrics
Synthesis
Awards and Achievements
อาจารย์รุ่นใหม่ดีเด่น
Publication
From Scopus
Author ID: 16306455500
1
Choyuiad C., Samadoloh S., Bomlai P., Lertwittayanon K., Jiansirisomboon S., Promsawat M., 2021. Effects of Soaking Time on Properties of PMNT Ceramics Fabricated by Agar Gel-Casting Method. Integrated Ferroelectrics 214(1): 106-114. (cited 0 times)
2
Jehlaeh K., Salea A., Bomlai P., Putson C., 2020. Preparation and Storage Energy Density Base on Dielectric Properties of P(VDF-HFP)/PU/BNKT Thin Films. IOP Conference Series: Materials Science and Engineering 859(1) (cited 0 times)
3
Bomlai P., Kongthong N., 2019. Improvement of the electrical properties in ba(Ti0.92Sn0.08)O3 lead-free ceramics by ca addition and sintering profile. Key Engineering Materials 798 KEM: 258-263. (cited 0 times)
4
Jaimeewong P., Sittinon S., Buntham S., Bomlai P., Namsar O., Pojprapai S., Watcharapasorn A., 2018. Ferroelectric, Piezoelectric and Dielectric Behaviors of CoO- and Fe2 O3 -Doped BCZT Ceramics. Physica Status Solidi (A) Applications and Materials Science 215(20) (cited 18 times)
5
Bomlai P., Hwangkaw P., 2018. Enhanced dielectric properties of Ba(Ti, Sn)O3 lead-free ceramics by Bi(Zn0.5 Ti0.5 )O3 substitution. Integrated Ferroelectrics 187(1): 165-172. (cited 1 times)
6
Kayaphan W., Bomlai P., 2018. Microstructural and Electrical Properties of Sn-Modified BaTiO3 Lead-Free Ceramics by Two-Step Sintering Method. Advances in Materials Science and Engineering 2018 (cited 1 times)
7
Matchawet S., Kaesaman A., Bomlai P., Nakason C., 2017. Effects of multi-walled carbon nanotubes and conductive carbon black on electrical, dielectric, and mechanical properties of epoxidized natural rubber composites. Polymer Composites 38(6): 1031-1042. (cited 13 times)
8
Wattanapradit O., Bomlai P., 2017. Effects of ball milling on the properties of (Ba1-x Cax )(Ti0.92 Sn0.08 )O3 lead-free ceramics. Key Engineering Materials 751 KEM: 417-422. (cited 0 times)
9
Matchawet S., Kaesaman A., Bomlai P., Nakason C., 2016. Electrical, dielectric, and dynamic mechanical properties of conductive carbon black/epoxidized natural rubber composites. Journal of Composite Materials 50(16): 2191-2202. (cited 28 times)
10
Bomlai P., Milne S., 2014. Structural and electrical properties of AgTaO3 -modified (Na 0.465 K0.465 Li0.07 ) NbO3 lead-free ceramics. Ferroelectrics 458(1): 98-105. (cited 1 times)
Content provided by Scopus.
Publication
From the Faculty of Science
1
Choyuiad, C., Samadoloh, S., Bomlai, P., Lertwittayanon, K., Jiansirisomboon, S., & Promsawat, M. (2021).
Effects of Soaking Time on Properties of PMNT Ceramics Fabricated by Agar Gel-Casting Method (SCIE). Integrated Ferroelectrics, 214(1), 106-114.
2
Bomlai, P., & Kongthong, N. (2019). Improvement of the Electrical Properties in Ba(Ti0.92Sn0.08)O3 Lead-FreeCeramics by Ca Addition and Sintering Profile. Key Engineering Materials, 798, 258-263.
3
Jaimeewong, P., Sittinon, S., Buntham, S., Bomlai, P., Namsar, O., Pojprapai, S., & Watcharapasorn, A. (2018). Ferroelectric, Piezoelectric and Dielectric Behaviors of CoO- and Fe2O3-Doped BCZT Ceramics. Physica Status Solidi (a) Applications And Materials Science, 215(20), Article number 1701023.
4
Bomlai, P., & Hwangkaw, P. (2018). Enhanced dielectric properties of Ba(Ti, Sn)O3 lead-free ceramics by Bi(Zn0.5Ti0.5)O3 substitution. Integrated Ferroelectrics, 187(1), 165-172.
5
Kayaphan, W., & Bomlai, P. (2018). Microstructural and Electrical Properties of Sn-Modified BaTiO3 Lead-Free Ceramics by Two-Step Sintering Method. Advances In Materials Science And Engineering, 2018, Article number 9048062.
6
Wattanapradit, O., & Bomlai, P. (2017). Effects of Ball Milling on the Properties of (Ba1-xCax)(Ti0.92Sn0.08)O3 Lead-Free Ceramics. Key Engineering Materials, 751, 417-422.
7
Matchawet, S., Kaesaman, A., Bomlai, P., & Nakason, C. (2017). Effects of multi-walled carbon nanotubes and conductive carbon black on electrical, dielectric, and mechanical properties of epoxidized natural rubber composites. Polymer Composites, 38(6), 1031-1042.
8
Matchawet, S., Kaesaman, A., Bomlai, P., & Nakason, C. (2016). Electrical, dielectric, and dynamic mechanical properties of conductive carbon black/epoxidized natural rubber composites. Journal Of Composite Materials, 50(16), 2191-2202.
9
Bomlai, P., & S.j, M. (2014). Structural and electrical properties of AgTaO3-modified (Na 0.465K0.465Li0.07) NbO3 lead-free ceramics. Ferroelectrics, 458(1), 98-105.
10
Bomlai, P., Muensit, N., & Milne, S. (2013). Structural and electrical properties of Na0.47K0.47Li0.06NbO3 lead-free piezoelectric ceramics modified by AgSbO3. Ceramics International, 39, S135-S138.
11
Petnoi, N., Bomlai, P., Jiansirisomboon, S., & Watcharapasorn, A. (2013). Effects of Nb-doping on the micro-structure and dielectric properties of
(Bi0.5Na0.5)TiO3 ceramics. Ceramics Internationa, 39, S113-S117.
12
Bomlai, P., Muensit, N., & Milne, S. (2012). Structural and electrical properties of Na 0.47K 0.47Li 0.06NbO 3 lead-free piezoelectric ceramics modified by AgSbO 3. Ceramics International, XX(XX), XX.
13
Bomlai, P., Muensit, N., & Milne, S. (2012). Structural and electrical properties of (1-x)(Na0.465K0.465 Li0.07)NbO3 – x CaTiO3 lead-free piezoelectric ceramics with high Curie temperature. Procedia Engineering, 32(-), 814-820.
14
Salaeh, S., Bomlai, P., Muensit, N., & Nakason, C. (2011). Ceramic/natural rubber composites: influence types of rubber
and ceramic materials on curing, mechanical, morphological,
and dielectric properties. Journal Of Materials Science, 46(4), 1723-1731.
15
Bomlai, P., Songsurin, C., Muensit, N., & Milne, S. (2010). Structural and electrical properties of (1-x) Na0.465Li0.07Nb0.93Ta0.07O3-x MnO lead-free piezoelectric ceramics synthesized at low sintering temperatures. Scienceasia, 36(3), 231-236.
16
บ่มไล่, พ. (2009). ผลของอุณหภูมิซินเตอร์ต่อสมบัติของเซรามิก Bi0.5 (Na0.85K0.15)0.5 TiO3. วารสารวิทยาศาสตร์ มข., 37(4), 454-462.
17
Bomlai, P., Muensit, S., & Milne, S. (2009). Phase transition behaviour and dielectric properties of Na0.5K0.5NbO3-LiTaO3-LisbO3 lead-free piezoceramic. Scienceasia, 35(3), 261-267.
18
Bomlai, P., Sukpraseart, S., Muensit, S., & Milne, S. (2008). Phase development, densification and dielectric properties of (0.95-x)Na0.5K0.5NbO3 - 0.05LiTaO3 - x LiSbO3 lead-free piezoelectric ceraamics. Songklanakarin Journal Of Science And Technology, 30(6), 791-797.
19
Bomlai, P., Sukpraseart, S., Muensit, S., & Mine, S. (2008). Reaction-sintering of lead-free piezoceramic compositions: (0.95-x)Na0.5K0.5NbO3-0.05LiTaO3-xLiSbO3. Journal Of Materials Science, 43(18), 6116-6121.
20
Bomlai, P., Sinsap, P., Muensit, S., & Milne, S. (2008). Effect of MnO on the Phase Development, Microstructures, and Dielectric Properties of 0.95Na0.5K0.5NbO3-0.05LitaO3 Ceramics. Journal Of The American Ceramic Society, 91(2), 624-627.
21
Bomlai, P., Saengchote, W., Muensit, S., & Milne, S. (2007). Phase and morphology evolution of (Na1-xKx)NbO3 powders related to calcinations and K2CO3 content. Songklanakarin J. Sci. Technol., 29(2), 441-448.
22
Bomlai, P., & Milne, S. (2007). Properties of barium-strontium titanate PTCR ceramics sintered on different powder beds. Journal Of Materials Science, 42(16), 6803-6808.
23
Bomlai, P., Wichianrat, P., Muensit, S., & Milne, S. (2007). Effect of calcination conditions and excess alkali carbonate on the phase formation and particle morphology of Na0.5K0.5NbO3 powders. Journal Of The American Ceramic Society, 90(5), 1650-1655.
24
Bomlai, P., Sirikulrat, N., Brown, A., Condliffe, E., & Milne, S. (2007). Compositional analysis and electrical properties of Sb, Mn-doped barium strontium titanate PTCR ceramics with TiO2 and SiO2 sintering additives. Journal Of Materials Science, 42(6), 2175-2180.
25
Bomlai, P. (2006). Effects of surrounding powder in sintering process on the properties of Sb and Mn- doped barium-strontium titanate PTCR ceramics.. Songklanakarin J. Sci. Technol., 28(3), 669-675.
26
Bomlai, P., Sirikulrat, N., & Tunkasiri, T. (2005). Effect of heating rate on the properties of Sb and Mn-doped barium strontium titanate PTCR ceramics
. Materials Letters, 59(1), 118-122.
27
Bomlai, P., Sirikulrat, A., Brown, A., & Milne, S. (2005). Effects of TiO2 and SiO2 additions on phase formation, microstructures and PTCR characteristics of Sb-doped barium strontium titanate ceramics
. Journal Of The European Ceramic Society, 25(11), 1905-1918.
28
Bomlai, P., & Sirikulrat, N. (2005). Diffusion effects of alumina on microstructures and positive temperature coefficient resistivity (PTCR) characteristics of barium-strontium titanate ceramics
. Journal Of Materials Science, 40(3), 779-784.
29
Bomlai, P., Sirikulrat, N., & Tunkasiri, T. (2004). Microstructures and positive temperature coefficient resistivity (PTCR) characteristics of high silicon addition barium-strontium titanate ceramics
. Journal Of Materials Science, 39(5), 1831-1835.