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Assoc. Prof. Wanchai Sata

ภาควิชาวิศวกรรมโยธา,

Faculty of Engineering,

Khon Kaen University

6506491058: H-INDEX 43

Documents

TCI อ้างอิงจาก http://www.tci-thaijo.org/

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SCOPUS

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PUBMED

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ISI

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TCI

	Title	Author	Year	SCOPUS	PUBMED	ISI	TCI
1.	Use of ground coarse fly ash as a replacement of condensed silica fume in producing high-strength concrete	Sata, V.	2004
2.	Utilization of palm oil fuel ash in high-strength concrete	Sata, V.	2004
3.	Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete	Sata, V.	2007
4.	Compressive strength and heat evolution of concretes containing palm oil fuel ash	Vanchai Sata Chai Jaturapitakkul Chaiyanunt Rattanashotinunt	2010
5.	Effects of binder and CaCl2 contents on the strength of calcium carbide residue-fly ash concrete	Sata, V.	2011
6.	Efficiency factor of high calcium Class F fly ash in concrete	Sata, V. Khammathit, P. Chindaprasirt, P.	2011
7.	Effect of W/B ratios on pozzolanic reaction of biomass ashes in Portland cement matrix	Sata, V. Chindaprasirt, P.	2012
8.	Improved geopolymerization of bottom ash by incorporating fly ash and using waste gypsum as additive	Boonserm, K. Sata, V. Pimraksa, K. Chindaprasirt, P.	2012
9.	Microstructure and strength of blended FBC-PCC fly ash geopolymer containing gypsum as an additive	Kornkanok Boonserm Vanchai Sata Kedsarin Pimraksa Prinya Chindaprasirt	2012
10.	Pervious high-calcium fly ash geopolymer concrete	Tho-In, T. Sata, V. Chindaprasirt, P.	2012
11.	Resistance of lignite bottom ash geopolymer mortar to sulfate and sulfuric acid attack	Sata, V. Sathonsaowaphak, A. Chindaprasirt, P.	2012
12.	The effects of replacement fly ash with diatomite in geopolymer mortar	Theerawat Sinsiri Tanakorn Phoo-ngernkham Vanchai Sata Prinya Chindaprasirt	2012
13.	High-Calcium Bottom Ash Geopolymer: Sorptivity, Pore Size, and Resistance to Sodium Sulfate Attack	Chotetanorm, C. Chindaprasirt, P. Sata, V. Rukzon, S. Sathonsaowaphak, A.	2013
14.	High calcium fly ash geopolymer containing diatomite as additive	Phoo-Ngernkham, T. Chindaprasirt, P. Sata, V.	2013
15.	Lightweight geopolymer concrete containing aggregate from recycle lightweight block	Patcharapol Posi Chaiyapong Teerachanwit Chatchai Tanutong Suttikait Limkamoltip Surasit Lertnimoolchai Vanchai Sata Prinya Chindaprasirt	2013
16.	Pressed lightweight concrete containing calcined diatomite aggregate	Posi, P. Lertnimoolchai, S. Sata, V. Chindaprasirt, P.	2013
17.	Properties of high calcium fly ash geopolymer pastes with Portland cement as an additive	Tanakorn Phoo-ngernkham Prinya Chindaprasirt Vanchai Sata Saengsuree Pangdaeng Theerawat Sinsiri	2013
18.	Properties of pervious geopolymer concrete using recycled aggregates	Sata, V. Wongsa, A. Chindaprasirt, P.	2013
19.	Use of lightweight aggregates in pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2013
20.	Effects of NaOH concentrations on physical and electrical properties of high calcium fly ash geopolymer paste	Sakonwan Hanjitsuwan Sitchai Hunpratub Prasit Thongbai Santi Maensiri Vanchai Sata Prinya Chindaprasirt	2014
21.	Influence of curing conditions on properties of high calcium fly ash geopolymer containing Portland cement as additive	Pangdaeng, S. Phoo-Ngernkham, T. Sata, V. Chindaprasirt, P.	2014
22.	Investigation of properties of lightweight concrete with calcined diatomite aggregate	Posi, P. Lertnimoolchai, S. Sata, V. Phoo-Ngernkham, T. Chindaprasirt, P.	2014
23.	Mechanical and Thermal Properties of Recycling Lightweight Pervious Concrete	Chindaprasirt, P. Nuaklong, P. Zaetang, Y. Sujumnongtokul, P. Sata, V.	2014
24.	The effect of adding nano-SiO2 and nano-Al2O3 on properties of high calcium fly ash geopolymer cured at ambient temperature	Tanakorn Phoo-ngernkham Prinya Chindaprasirt Vanchai Sata Sakonwan Hanjitsuwan Shigemitsu Hatanaka	2014
25.	Apatite formation on calcined kaolin-white Portland cement geopolymer	S. Pangdaeng V. Sata J. B. Aguiar F. Pacheco-Torgal P. Chindaprasirt	2015
26.	High calcium fly ash geopolymer mortar containing Portland cement for use as repair material	Tanakorn Phoo-ngernkham Vanchai Sata Sakonwan Hanjitsuwan Charoenchai Ridtirud Shigemitsu Hatanaka Prinya Chindaprasirt	2015
27.	Mechanical and Thermal Properties of Recycling Lightweight Pervious Concrete	Prinya Chindaprasirt Peem Nuaklong Yuwadee Zaetang Purimpat Sujumnongtokul Vanchai Sata	2015
28.	Setting Time, Strength, and Bond of High-Calcium Fly Ash Geopolymer Concrete	Topark-Ngarm, P. Chindaprasirt, P. Sata, V.	2015
29.	Use of coal ash as geopolymer binder and coarse aggregate in pervious concrete	Yuwadee Zaetang Ampol Wongsa Vanchai Sata Prinya Chindaprasirt	2015
30.	Bioactivity enhancement of calcined kaolin geopolymer with CaCl2 treatment	Saengsuree Pangdaeng Vanchai Sata J. B. Aguiar F. Pacheco-Torgal Jarin Chindaprasirt Prinya Chindaprasirt	2016
31.	Compressive strength, Bending and Fracture Characteristics of High Calcium Fly Ash Geopolymer Mortar Containing Portland Cement Cured at Ambient Temperature	Tanakorn Phoo-ngernkham Vanchai Sata Sakonwan Hanjitsuwan Charoenchai Ridtirud Shigemitsu Hatanaka Prinya Chindaprasirt	2016
32.	Influence of recycled aggregate on fly ash geopolymer concrete properties	Peem Nuaklong Vanchai Sata Prinya Chindaprasirt	2016
33.	Interfacial transition zone of pervious cement and geopolymer concrete containing crushed clay brick	Vanchai Sata Ampol Wongsa Kiatsuda Somna Prinya Chindaprasirt	2016
34.	Properties of lightweight fly ash geopolymer concrete containing bottom ash as aggregates	Ampol Wongsa Yuwadee Zaetang Vanchai Sata Prinya Chindaprasirt	2016
35.	Properties of pervious concrete containing high-calcium fly ash	Sata, V. Chindaprasirt, P.	2016
36.	Properties of pervious concrete containing recycled concrete block aggregate and recycled concrete aggregate	Zaetang, Y. Sata, V. Wongsa, A. Chindaprasirt, P.	2016
37.	Compressive strength and microstructure analysis of geopolymer paste using waste glass powder and fly ash	Tho-In, T. Sata, V. Boonserm, K. Chindaprasirt, P.	2017
38.	Influence of mineral additives on the properties of pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2017
39.	Strength and behaviour of small-scale reinforced high calcium fly ash geopolymer concrete beam with short shear span	Topark-Ngarm, P. Chindaprasirt, P. Sata, V.	2017
40.	Use of municipal solid waste incinerator (MSWI) bottom ash in high calcium fly ash geopolymer matrix	Wongsa, A. Boonserm, K. Waisurasingha, C. Sata, V. Chindaprasirt, P.	2017
41.	Use of recycled concrete aggregate in high-calcium fly ash geopolymer concrete	Tho-In, T. Sata, V. Chindaprasirt, P.	2017
42.	Compressive strength and m(i)crostructure analysis of geopolymer paste using waste glass powder and fly ash	Tawatchai Tho-In Vanchai Sata Kornkanok Boonserm Prinya Chindaprasirt	2018
43.	Effect of sodium hydroxide concentration and sodium silicate to sodium hydroxide ratio on properties of calcined kaolin-white portlandcement geopolymer	Saengsuree Pangdaeng Vanchai Sata Prinya Chindaprasirt	2018
44.	Mechanical and thermal properties of lightweight geopolymer mortar incorporating crumb rubber	Wongsa, A. Sata, V. Chindaprasirt, P.	2018
45.	Mechanical Properties, Thermal Conductivity, and Sound Absorption of Pervious Concrete Containing Recycled Concrete and Bottom Ash Aggregates	Sata, V. Satiennam, T. Klungboonkrong, P. Chindaprasirt, P.	2018
46.	PORTLAND CEMENT CONTAINING FLY ASH, EXPANDED PERLITE, AND PLASTICIZER FOR MASONRY AND PLASTERING MORTARS	Detphan, S. Phoo-Ngernkham, T. Sata, V. Chindaprasirt, P.	2018
47.	Properties of metakaolin-high calcium fly ash geopolymer concrete containing recycled aggregate from crushed concrete specimens	Peem Nuaklong Vanchai Sata Prinya Chindaprasirt	2018
48.	Recycled aggregate high calcium fly ash geopolymer concrete with inclusion of OPC and nano-SiO2	Peem Nuaklong Vanchai Sata Ampol Wongsa Korb Srinavin Prinya Chindaprasirt	2018
49.	Recycled aggregate high calcium fly ash geopolymer concrete with inclusion of OPC and nano-SiO2	Nuaklong, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2018
50.	Setting time, compressive strength and sulfuric acid resistance of a high calcium fly ash geopolymer containing borax	Sata, V. Chindaprasirt, P.	2018
51.	Use of crushed clay brick and pumice aggregates in lightweight geopolymer concrete	Wongsa, A. Sata, V. Nuaklong, P. Chindaprasirt, P.	2018
52.	Influence of glass and limestone powders in high calcium fly ash geopolymer paste on compressive strength and microstructure	Topark-Ngarm, P. Tho-In, T. Sata, V. Chindaprasirt, P.	2019
53.	Lightweight geopolymer concrete containing recycled plastic beads	Posi, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2019
54.	Properties of Concrete Pedestrian Blocks Containing Crumb Rubber from Recycle Waste Tyres Reinforced with Steel Fibres	Sata, V. Chindaprasirt, P.	2019
55.	Properties of high-calcium and low-calcium fly ash combination geopolymer mortar containing recycled aggregate.	Peem Nuaklong Ampol Wongsa Vanchai Sata Kornkanok Boonserm Jay Sanjayan Prinya Chindaprasirt	2019
56.	Resistance to algae and fungi formation of high calcium fly ash geopolymer paste containing TiO2	Soebpong Tuntachon Khanita Kamwilaisak Theerasak Somdee Wiyada Mongkoltanaruk Vanchai Sata Kornkanok Boonserm Ampol Wongsa Prinya Chindaprasirt	2019
57.	Resistance to algae and fungi formation of high calcium fly ash geopolymer paste containing TiO2	Kamwilaisak, K. Somdee, T. Sata, V. Boonserm, K. Wongsa, A. Chindaprasirt, P.	2019
58.	Utilization of crumb rubber as aggregate in high calcium fly ash geopolymer mortars	Yuwadee Zaetang Ampol Wongsa Prinya Chindaprasirt Vanchai Sata	2019
59.	Influence of rice husk ash on mechanical properties and fire resistance of recycled aggregate high-calcium fly ash geopolymer concrete	Nuaklong, P. Sata, V. Chindaprasirt, P.	2020
60.	Natural fiber reinforced high calcium fly ash geopolymer mortar	Ampol Wongsa Ronnakrit Kunthawatwong Sakchai Naenudon Vanchai Sata Prinya Chindaprasirt	2020
61.	Thermal and sound properties of concrete mixed with high porous aggregates from manufacturing waste impregnated with phase change material	Sata, V. Chindaprasirt, P.	2020
62.	Use of recycled aggregates in pressed fly ash geopolymer concrete	Ampol Wongsa Apinun Siriwattanakarn Peem Nuaklong Vanchai Sata Piti Sukontasukkul Prinya Chindaprasirt	2020
63.	Effect of viscoelastic polymer on damping properties of precast concrete panel	Tontiwattanakul, K. Sanguansin, J. Ratanavaraha, V. Sata, V. Limkatanyu, S. Sukontasukkul, P.	2021
64.	Enhancement of mechanical properties of fly ash geopolymer containing fine recycled concrete aggregate with micro carbon fiber	Nuaklong, P. Wongsa, A. Boonserm, K. Sata, V. Chindaprasirt, P.	2021
65.	Fire resistance of recycled aggregate alkali-activated concrete	Chindaprasirt, P. Sukontasukkul, P. Sata, V. Cao, T.	2021
66.	Strength, thermal conductivity and sound absorption of cellular lightweight high calcium fly ash geopolymer concrete	Posi, P. Kasemsiri, P. Sata, V. Chindaprasirt, P.	2021
67.	Bio-strengthening of cementitious composites from incinerated sugarcane filter cake by a calcifying bacterium Lysinibacillus sp. WH	Ditta, ZM Tanapongpisit, N Saenrang, W Fongkaew, I Chainakun, P Seemakram, W Boonlue, S Sata, V Ekprasert, J	2022
68.	Effect of synthetic microfiber and viscosity modifier agent on layer deformation, viscosity, and open time of cement mortar for 3D printing application	Sata, V. Chindaprasirt, P.	2022
69.	High flexural strength lightweight fly ash geopolymer mortar containing waste ﬁber cement	Naenudon, S. Zaetang, Y. Tangchirapat, W. Wongsa, A. Sata, V. Chindaprasirt, P.	2022
70.	Recycled Non-Biodegradable polyethylene terephthalate waste as fine aggregate in fly ash geopolymer and cement mortars	Kunthawatwong, R. Pangdaeng, S. Wongsa, A. Sata, V. Chindaprasirt, P.	2022
71.	Strength enhancement of pumice-based geopolymer paste by incorporating recycled concrete and calcined oyster shell powders	Nasaeng, P. Wongsa, A. Cheerarot, R. Sata, V.	2022
72.	Thermal insulating and fire resistance performances of geopolymer mortar containing auto glass waste as fine aggregate	Chindaprasirt, P. Zaetang, Y. Phoo-ngernkham, T. Wongsa, A. Sata, V.	2022
73.	Enhancing the properties of fly ash-based geopolymer concrete using recycled aggregate from waste ceramic electrical insulator	Naenudon, S. Wongsa, A. Ekprasert, J. Sata, V.	2023
74.	Fire-resistant and Thermal Insulation Improvements of Cement Mortar with Auto Glass Waste Sand	Zaetang, Y. Lao-un, J. Wongkvanklom, A. Wongsa, A. Sata, V.	2023
75.	Hybrid geopolymer paste from high calcium fly ash and glass wool: Mechanical, microstructure, and sulfuric acid and magnesium sulfate resistance characteristics	Saptamongkol, A. Sata, V. Wongsa, A. Kroehong, W. Ekprasert, J.	2023
76.	Investigating the effects of superplasticizer and recycled plastics on the compressive strength of cementitious composites using neural networks.	Ekprasert, J. Nakhonthong, N. Sata, V.	2023
77.	Performance of Geopolymer Mortar Containing PVC Plastic Waste from Bottle Labels at Normal and Elevated Temperatures	Kunthawatwong, R. Wongsa, A. Ekprasert, J. Sukontasukkul, P. Sata, V.	2023
78.	Application of ultra high-performance mortar for producing high-performance pervious concrete with low carbon emissions and cost	Tran, T.N.H. Kaur, H. Sukcharoen, T. Pulngern, T. Sata, V. Jaturapitakkul, C. Ban, C.C. Tangchirapat, W.	2024
79.	Enhanced mechanical and self-healing properties of rice husk ash-incinerated sugarcane press mud biogeopolymer pastes	Techo, A Kaewpikul, D Sata, V Tanapongpisit, N Wongprasod, S Saenrang, W Chainakun, P Chindaprasirt, P Ekprasert, J	2024
80.	Geopolymer composites containing recycled plastics and waste glass	Sata, V. Wongsa, A. Ekprasert, J. Chindaprasirt, P.	2024
81.	Mechanical and self-healing properties of cement paste containing incinerated sugarcane filter cake and Lysinibacillus sp. WH bacteria.	Ditta, ZM Laohana, P Tanapongpisit, N Saenrang, W Boonlue, S Sata, V Baalousha, M Chindaprasirt, P Ekprasert, J	2024
82.	High calcium fly ash-auto glass powder alkali-activated pastes	Zaetang, Y. Thongrit, P. Phoo-Ngernkham, T. Tippayasam, C. Phungsai, P. Wongsa, A. Sata, V.	2025
83.	Performance of Auto Glass Powder-High Calcium Fly Ash Geopolymer Mortar Exposed to High Temperature	Zaetang, Y. Wongkvanklom, A. Pangdaeng, S. Hanjitsuwan, S. Wongsa, A. Sata, V.	2025
84.	Polyvinyl chloride (PVC) waste in pressed geopolymer concrete: Analyzing properties and feasibility application considerations	Kaewpikul, D. Pangdaeng, S. Wongsa, A. Ekprasert, J. Sata, V.	2025
85.	STRESS-STRAIN RELATIONSHIP OF GEOPOLYMER CONCRETE UNDER COMPRESSIVE LOADING	Janpila, A. Foytong, P. Posi, P. Laungekatin, N. Wongsa, A. Sata, V. Chindaprasirt, P.	2025
86.	Sustainable CO utilization and calcium carbonate recovery from calcium carbide wastewater.	Nuithitikul, K Jitsangiam, P Pachana, PK Arbwaree, M Rattanasak, U Sata, V Chindaprasirt, P	2025
87.	Sustainable Utilization of Mill Scale in High-Calcium Fly Ash Geopolymer Concrete: Mechanical, Durability, and Radiation Shielding Properties	Sylisomchanh, L. Wongsa, A. Yenchai, C. Ekprasert, J. Rattanasak, U. Sata, V.	2025
88.	Utilization of Mill Scale Waste as Natural Fine Aggregate Replacement in Mortar: Evaluation of Physical, Mechanical, Durability, and Post-Fire Properties	Siriwattanakarn, A. Wongsa, A. Eua-Anant, N. Sata, V. Sukontasukkul, P.	2025
	Count			81	7	50	0

	Title	Authors	Year	Publication name	Cited count
	Title	Authors	Year	Publication name	< 2020	2021	2022	2023	2024	2025	Total
1.	Use of ground coarse fly ash as a replacement of condensed silica fume in producing high-strength concrete	Sata, V.	2004	Cement and Concrete Research 4 (34), pp. 549-555
2.	Utilization of palm oil fuel ash in high-strength concrete	Sata, V.	2004	Journal of Materials in Civil Engineering 6 (16), pp. 623-628
3.	Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete	Sata, V.	2007	Construction and Building Materials 7 (21), pp. 1589-1598
4.	Compressive strength and heat evolution of concretes containing palm oil fuel ash	Sata, V.	2010	Journal of Materials in Civil Engineering 10 (22), pp. 1033-1038
5.	Effects of binder and CaCl2 contents on the strength of calcium carbide residue-fly ash concrete	Sata, V.	2011	Cement and Concrete Composites 3 (33), pp. 436-443
6.	Efficiency factor of high calcium Class F fly ash in concrete	Sata, V. Khammathit, P. Chindaprasirt, P.	2011	Computers and Concrete 5 (8), pp. 583-595
7.	Effect of W/B ratios on pozzolanic reaction of biomass ashes in Portland cement matrix	Sata, V. Chindaprasirt, P.	2012	Cement and Concrete Composites 1 (34), pp. 94-100
8.	Improved geopolymerization of bottom ash by incorporating fly ash and using waste gypsum as additive	Boonserm, K. Sata, V. Pimraksa, K. Chindaprasirt, P.	2012	Cement and Concrete Composites 7 (34), pp. 819-824
9.	Microstructure and strength of blended FBC-PCC fly ash geopolymer containing gypsum as an additive	Boonserm, K. Sata, V. Pimraksa, K. Chindaprasirt, P.	2012	ScienceAsia 2 (38), pp. 175-181
10.	Pervious high-calcium fly ash geopolymer concrete	Tho-In, T. Sata, V. Chindaprasirt, P.	2012	Construction and Building Materials (30), pp. 366-371
11.	Resistance of lignite bottom ash geopolymer mortar to sulfate and sulfuric acid attack	Sata, V. Sathonsaowaphak, A. Chindaprasirt, P.	2012	Cement and Concrete Composites 5 (34), pp. 700-708
12.	The effects of replacement fly ash with diatomite in geopolymer mortar	Phoo-Ngernkham, T. Sata, V. Chindaprasirt, P.	2012	Computers and Concrete 6 (9), pp. 427-437
13.	High-calcium bottom ash geopolymer: Sorptivity, pore size, and resistance to sodium sulfate attack	Chotetanorm, C. Chindaprasirt, P. Sata, V. Rukzon, S. Sathonsaowaphak, A.	2013	Journal of Materials in Civil Engineering 1 (25), pp. 105-111
14.	High calcium fly ash geopolymer containing diatomite as additive	Phoo-Ngernkham, T. Chindaprasirt, P. Sata, V.	2013	Indian Journal of Engineering and Materials Sciences 4 (20), pp. 310-318
15.	Lightweight geopolymer concrete containing aggregate from recycle lightweight block	Posi, P. Teerachanwit, C. Tanutong, C. Limkamoltip, S. Lertnimoolchai, S. Sata, V. Chindaprasirt, P.	2013	Materials and Design (52), pp. 580-586
16.	Pressed lightweight concrete containing calcined diatomite aggregate	Posi, P. Lertnimoolchai, S. Sata, V. Chindaprasirt, P.	2013	Construction and Building Materials (47), pp. 896-901
17.	Properties of high calcium fly ash geopolymer pastes with Portland cement as an additive	Phoo-Ngernkham, T. Chindaprasirt, P. Sata, V. Pangdaeng, S.	2013	International Journal of Minerals, Metallurgy and Materials 2 (20), pp. 214-220
18.	Properties of pervious geopolymer concrete using recycled aggregates	Sata, V. Wongsa, A. Chindaprasirt, P.	2013	Construction and Building Materials (42), pp. 33-39
19.	Use of lightweight aggregates in pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2013	Construction and Building Materials (48), pp. 585-591
20.	Effects of NaOH concentrations on physical and electrical properties of high calcium fly ash geopolymer paste	Hanjitsuwan, S. Hunpratub, S. Thongbai, P. Maensiri, S. Sata, V. Chindaprasirt, P.	2014	Cement and Concrete Composites (45), pp. 9-14
21.	Influence of curing conditions on properties of high calcium fly ash geopolymer containing Portland cement as additive	Pangdaeng, S. Phoo-Ngernkham, T. Sata, V. Chindaprasirt, P.	2014	Materials and Design (53), pp. 269-274
22.	Investigation of properties of lightweight concrete with calcined diatomite aggregate	Posi, P. Lertnimoolchai, S. Sata, V. Phoo-Ngernkham, T. Chindaprasirt, P.	2014	KSCE Journal of Civil Engineering 5 (18), pp. 1429-1435
23.	Mechanical and Thermal Properties of Recycling Lightweight Pervious Concrete	Chindaprasirt, P. Nuaklong, P. Zaetang, Y. Sujumnongtokul, P. Sata, V.	2014	Arabian Journal for Science and Engineering 2 (40), pp. 443-450
24.	The effect of adding nano-SiO2 and nano-Al2O3 on properties of high calcium fly ash geopolymer cured at ambient temperature	Phoo-Ngernkham, T. Chindaprasirt, P. Sata, V. Hanjitsuwan, S.	2014	Materials and Design (55), pp. 58-65
25.	Apatite formation on calcined kaolin-white Portland cement geopolymer	Pangdaeng, S. Sata, V. Chindaprasirt, P.	2015	Materials Science and Engineering C (51), pp. 1-6
26.	High calcium fly ash geopolymer mortar containing Portland cement for use as repair material	Phoo-Ngernkham, T. Sata, V. Hanjitsuwan, S. Ridtirud, C. Hatanaka, S. Chindaprasirt, P.	2015	Construction and Building Materials (98), pp. 482-488
27.	Setting time, strength, and bond of high-calcium fly ash geopolymer concrete	Topark-Ngarm, P. Chindaprasirt, P. Sata, V.	2015	Journal of Materials in Civil Engineering 7 (27), pp.
28.	Use of coal ash as geopolymer binder and coarse aggregate in pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2015	Construction and Building Materials (96), pp. 289-295
29.	Compressive strength, Bending and Fracture Characteristics of High Calcium Fly Ash Geopolymer Mortar Containing Portland Cement Cured at Ambient Temperature	Phoo-Ngernkham, T. Sata, V. Hanjitsuwan, S. Ridtirud, C. Chindaprasirt, P.	2016	Arabian Journal for Science and Engineering 4 (41), pp. 1263-1271
30.	Influence of recycled aggregate on fly ash geopolymer concrete properties	Nuaklong, P. Sata, V. Chindaprasirt, P.	2016	Journal of Cleaner Production (112), pp. 2300-2307
31.	Interfacial transition zone of pervious cement and geopolymer concrete containing crushed clay brick	Sata, V. Wongsa, A. Chindaprasirt, P.	2016	Chiang Mai Journal of Science 2 (43), pp. 402-408
32.	Properties of lightweight fly ash geopolymer concrete containing bottom ash as aggregates	Wongsa, A. Zaetang, Y. Sata, V. Chindaprasirt, P.	2016	Construction and Building Materials (111), pp. 637-643
33.	Properties of pervious concrete containing high-calcium fly ash	Sata, V. Chindaprasirt, P.	2016	Computers and Concrete 3 (17), pp. 337-351
34.	Properties of pervious concrete containing recycled concrete block aggregate and recycled concrete aggregate	Zaetang, Y. Sata, V. Wongsa, A. Chindaprasirt, P.	2016	Construction and Building Materials (111), pp. 15-21
35.	Compressive strength and microstructure analysis of geopolymer paste using waste glass powder and fly ash	Tho-In, T. Sata, V. Boonserm, K. Chindaprasirt, P.	2017	Journal of Cleaner Production (), pp.
36.	Influence of mineral additives on the properties of pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2017	Indian Journal of Engineering and Materials Sciences 6 (24), pp. 507-515
37.	Strength and behaviour of small-scale reinforced high calcium fly ash geopolymer concrete beam with short shear span	Topark-Ngarm, P. Chindaprasirt, P. Sata, V.	2017	Key Engineering Materials (718), pp. 191-195
38.	Use of municipal solid waste incinerator (MSWI) bottom ash in high calcium fly ash geopolymer matrix	Wongsa, A. Boonserm, K. Waisurasingha, C. Sata, V. Chindaprasirt, P.	2017	Journal of Cleaner Production (148), pp. 49-59
39.	Use of recycled concrete aggregate in high-calcium fly ash geopolymer concrete	Tho-In, T. Sata, V. Chindaprasirt, P.	2017	Key Engineering Materials (718), pp. 163-168
40.	Effect of sodium hydroxide concentration and sodium silicate to sodium hydroxide ratio on properties of calcined kaolin-white portlandcement geopolymer	Pangdaeng, S. Sata, V. Chindaprasirt, P.	2018	International Journal of GEOMATE 46 (14), pp. 121-128
41.	Mechanical and thermal properties of lightweight geopolymer mortar incorporating crumb rubber	Wongsa, A. Sata, V. Chindaprasirt, P.	2018	Journal of Cleaner Production (195), pp. 1069-1080
42.	Mechanical Properties, Thermal Conductivity, and Sound Absorption of Pervious Concrete Containing Recycled Concrete and Bottom Ash Aggregates	Sata, V. Satiennam, T. Klungboonkrong, P. Chindaprasirt, P.	2018	KSCE Journal of Civil Engineering 4 (22), pp. 1369-1376
43.	Portland cement containing fly ash, expanded perlite, and plasticizer for masonry and plastering mortars	Detphan, S. Phoo-Ngernkham, T. Sata, V. Chindaprasirt, P.	2018	International Journal of GEOMATE 48 (15), pp. 107-113
44.	Properties of metakaolin-high calcium fly ash geopolymer concrete containing recycled aggregate from crushed concrete specimens	Nuaklong, P. Sata, V. Chindaprasirt, P.	2018	Construction and Building Materials (161), pp. 365-373
45.	Recycled aggregate high calcium fly ash geopolymer concrete with inclusion of OPC and nano-SiO<inf>2</inf>	Nuaklong, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2018	Construction and Building Materials (174), pp. 244-252
46.	Setting time, compressive strength and sulfuric acid resistance of a high calcium fly ash geopolymer containing borax	Sata, V. Chindaprasirt, P.	2018	Engineering and Applied Science Research 2 (45), pp. 89-94
47.	Use of crushed clay brick and pumice aggregates in lightweight geopolymer concrete	Wongsa, A. Sata, V. Nuaklong, P. Chindaprasirt, P.	2018	Construction and Building Materials (188), pp. 1025-1034
48.	Influence of glass and limestone powders in high calcium fly ash geopolymer paste on compressive strength and microstructure	Topark-Ngarm, P. Tho-In, T. Sata, V. Chindaprasirt, P.	2019	Key Engineering Materials (801), pp. 397-403
49.	Lightweight geopolymer concrete containing recycled plastic beads	Posi, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2019	Key Engineering Materials (801 KEM), pp. 377-384
50.	Properties of Concrete Pedestrian Blocks Containing Crumb Rubber from Recycle Waste Tyres Reinforced with Steel Fibres	Sata, V. Chindaprasirt, P.	2019	Case Studies in Construction Materials (11), pp.
51.	Properties of high-calcium and low-calcium fly ash combination geopolymer mortar containing recycled aggregate	Nuaklong, P. Wongsa, A. Sata, V. Boonserm, K. Chindaprasirt, P.	2019	Heliyon 9 (5), pp.
52.	Resistance to algae and fungi formation of high calcium fly ash geopolymer paste containing TiO<inf>2</inf>	Kamwilaisak, K. Somdee, T. Sata, V. Boonserm, K. Wongsa, A. Chindaprasirt, P.	2019	Journal of Building Engineering (25), pp.
53.	Utilization of crumb rubber as aggregate in high calcium fly ash geopolymer mortars	Zaetang, Y. Wongsa, A. Chindaprasirt, P. Sata, V.	2019	International Journal of GEOMATE 64 (17), pp. 158-165
54.	Influence of rice husk ash on mechanical properties and fire resistance of recycled aggregate high-calcium fly ash geopolymer concrete	Nuaklong, P. Sata, V. Chindaprasirt, P.	2020	Journal of Cleaner Production (252), pp.
55.	Natural fiber reinforced high calcium fly ash geopolymer mortar	Wongsa, A. Sata, V. Chindaprasirt, P.	2020	Construction and Building Materials (241), pp.
56.	Thermal and sound properties of concrete mixed with high porous aggregates from manufacturing waste impregnated with phase change material	Sata, V. Chindaprasirt, P.	2020	Journal of Building Engineering (29), pp.
57.	Use of recycled aggregates in pressed fly ash geopolymer concrete	Wongsa, A. Nuaklong, P. Sata, V. Chindaprasirt, P.	2020	Environmental Progress and Sustainable Energy 2 (39), pp.
58.	Effect of viscoelastic polymer on damping properties of precast concrete panel	Tontiwattanakul, K. Sanguansin, J. Ratanavaraha, V. Sata, V. Limkatanyu, S. Sukontasukkul, P.	2021	Heliyon 5 (7), pp.
59.	Enhancement of mechanical properties of fly ash geopolymer containing fine recycled concrete aggregate with micro carbon fiber	Nuaklong, P. Wongsa, A. Boonserm, K. Sata, V. Chindaprasirt, P.	2021	Journal of Building Engineering (41), pp.
60.	Fire resistance of recycled aggregate alkali-activated concrete	Chindaprasirt, P. Sukontasukkul, P. Sata, V. Cao, T.	2021	Handbook of advances in Alkali-activated Concrete (), pp. 489-506
61.	Strength, thermal conductivity and sound absorption of cellular lightweight high calcium fly ash geopolymer concrete	Posi, P. Kasemsiri, P. Sata, V. Chindaprasirt, P.	2021	Engineering and Applied Science Research 4 (48), pp. 487-496
62.	Bio-strengthening of cementitious composites from incinerated sugarcane filter cake by a calcifying bacterium Lysinibacillus sp. WH	Seemakram, W. Boonlue, S. Sata, V.	2022	Scientific Reports 1 (12), pp.
63.	Effect of synthetic microfiber and viscosity modifier agent on layer deformation, viscosity, and open time of cement mortar for 3D printing application	Sata, V. Chindaprasirt, P.	2022	Construction and Building Materials (319), pp.
64.	High flexural strength lightweight fly ash geopolymer mortar containing waste ﬁber cement	Naenudon, S. Zaetang, Y. Tangchirapat, W. Wongsa, A. Sata, V. Chindaprasirt, P.	2022	Case Studies in Construction Materials (16), pp.
65.	Recycled Non-Biodegradable polyethylene terephthalate waste as fine aggregate in fly ash geopolymer and cement mortars	Kunthawatwong, R. Pangdaeng, S. Wongsa, A. Sata, V. Chindaprasirt, P.	2022	Construction and Building Materials (328), pp.
66.	Strength enhancement of pumice-based geopolymer paste by incorporating recycled concrete and calcined oyster shell powders	Nasaeng, P. Wongsa, A. Cheerarot, R. Sata, V.	2022	Case Studies in Construction Materials (17), pp.
67.	Thermal insulating and fire resistance performances of geopolymer mortar containing auto glass waste as fine aggregate	Chindaprasirt, P. Zaetang, Y. Phoo-ngernkham, T. Wongsa, A. Sata, V.	2022	Journal of Building Engineering (60), pp.
68.	Enhancing the properties of fly ash-based geopolymer concrete using recycled aggregate from waste ceramic electrical insulator	Naenudon, S. Wongsa, A. Ekprasert, J. Sata, V.	2023	Journal of Building Engineering (68), pp.
69.	Fire-resistant and Thermal Insulation Improvements of Cement Mortar with Auto Glass Waste Sand	Zaetang, Y. Lao-un, J. Wongkvanklom, A. Wongsa, A. Sata, V.	2023	KSCE Journal of Civil Engineering 9 (27), pp. 4032-4042
70.	Hybrid geopolymer paste from high calcium fly ash and glass wool: Mechanical, microstructure, and sulfuric acid and magnesium sulfate resistance characteristics	Saptamongkol, A. Sata, V. Wongsa, A. Kroehong, W. Ekprasert, J.	2023	Journal of Building Engineering (76), pp.
71.	Investigating the effects of superplasticizer and recycled plastics on the compressive strength of cementitious composites using neural networks	Ekprasert, J. Nakhonthong, N. Sata, V.	2023	Heliyon 11 (9), pp.
72.	Performance of Geopolymer Mortar Containing PVC Plastic Waste from Bottle Labels at Normal and Elevated Temperatures	Kunthawatwong, R. Wongsa, A. Ekprasert, J. Sukontasukkul, P. Sata, V.	2023	Buildings 4 (13), pp.
73.	Application of ultra high-performance mortar for producing high-performance pervious concrete with low carbon emissions and cost	Tran, T.N.H. Kaur, H. Sukcharoen, T. Pulngern, T. Sata, V. Jaturapitakkul, C. Ban, C.C. Tangchirapat, W.	2024	Journal of Building Engineering (86), pp.
74.	Enhanced mechanical and self-healing properties of rice husk ash-incinerated sugarcane press mud biogeopolymer pastes	Techo, A. Kaewpikul, D. Sata, V.	2024	Scientific Reports 1 (14), pp.
75.	Geopolymer composites containing recycled plastics and waste glass	Sata, V. Wongsa, A. Ekprasert, J. Chindaprasirt, P.	2024	Reuse of Plastic Waste in Eco-efficient Concrete (), pp. 177-200
76.	High calcium fly ash-auto glass powder alkali-activated pastes	Zaetang, Y. Thongrit, P. Phoo-Ngernkham, T. Tippayasam, C. Phungsai, P. Wongsa, A. Sata, V.	2025	International Journal of Sustainable Engineering 1 (18), pp.
77.	Performance of Auto Glass Powder-High Calcium Fly Ash Geopolymer Mortar Exposed to High Temperature	Zaetang, Y. Wongkvanklom, A. Pangdaeng, S. Hanjitsuwan, S. Wongsa, A. Sata, V.	2025	Civil Engineering Journal Iran 6 (11), pp. 2343-2358
78.	Polyvinyl chloride (PVC) waste in pressed geopolymer concrete: Analyzing properties and feasibility application considerations	Kaewpikul, D. Pangdaeng, S. Wongsa, A. Ekprasert, J. Sata, V.	2025	Construction and Building Materials (468), pp.
79.	STRESS-STRAIN RELATIONSHIP OF GEOPOLYMER CONCRETE UNDER COMPRESSIVE LOADING	Janpila, A. Foytong, P. Posi, P. Laungekatin, N. Wongsa, A. Sata, V. Chindaprasirt, P.	2025	International Journal of Geomate 127 (28), pp. 71-78
80.	Sustainable Utilization of Mill Scale in High-Calcium Fly Ash Geopolymer Concrete: Mechanical, Durability, and Radiation Shielding Properties	Sylisomchanh, L. Wongsa, A. Yenchai, C. Ekprasert, J. Rattanasak, U. Sata, V.	2025	Journal of Composites Science 6 (9), pp.
81.	Utilization of Mill Scale Waste as Natural Fine Aggregate Replacement in Mortar: Evaluation of Physical, Mechanical, Durability, and Post-Fire Properties	Siriwattanakarn, A. Wongsa, A. Eua-Anant, N. Sata, V. Sukontasukkul, P.	2025	Recycling 1 (10), pp.

	Title	Authors	Year	Journal title
1.	Apatite formation on calcined kaolin-white Portland cement geopolymer.	Pangdaeng, S Sata, V Aguiar, JB Pacheco-Torgal, F Chindaprasirt, P	2015	Materials science & engineering. C, Materials for biological applications (51), pp. 1-6
2.	Properties of high-calcium and low-calcium fly ash combination geopolymer mortar containing recycled aggregate.	Nuaklong, P Wongsa, A Sata, V Boonserm, K Sanjayan, J Chindaprasirt, P	2019	Heliyon 9 (5), pp. e02513
3.	Bio-strengthening of cementitious composites from incinerated sugarcane filter cake by a calcifying bacterium Lysinibacillus sp. WH.	Ditta, ZM Tanapongpisit, N Saenrang, W Fongkaew, I Chainakun, P Seemakram, W Boonlue, S Sata, V Ekprasert, J	2022	Scientific reports 1 (12), pp. 7026
4.	Investigating the effects of superplasticizer and recycled plastics on the compressive strength of cementitious composites using neural networks.	Ekprasert, J Nakhonthong, N Sata, V Chainakun, P	2023	Heliyon 11 (9), pp. e21798
5.	Mechanical and self-healing properties of cement paste containing incinerated sugarcane filter cake and Lysinibacillus sp. WH bacteria.	Ditta, ZM Laohana, P Tanapongpisit, N Saenrang, W Boonlue, S Sata, V Baalousha, M Chindaprasirt, P Ekprasert, J	2024	Scientific reports 1 (14), pp. 6716
6.	Enhanced mechanical and self-healing properties of rice husk ash-incinerated sugarcane press mud biogeopolymer pastes.	Techo, A Kaewpikul, D Sata, V Tanapongpisit, N Wongprasod, S Saenrang, W Chainakun, P Chindaprasirt, P Ekprasert, J	2024	Scientific reports 1 (14), pp. 28121
7.	Sustainable CO utilization and calcium carbonate recovery from calcium carbide wastewater.	Nuithitikul, K Jitsangiam, P Pachana, PK Arbwaree, M Rattanasak, U Sata, V Chindaprasirt, P	2025	iScience 4 (28), pp. 112239

	Title	Authors	Year	Journal title	Cited count
	Title	Authors	Year	Journal title	< 2020	2021	2022	2023	2024	2025	Total
1.	Compressive Strength and Heat Evolution of Concretes Containing Palm Oil Fuel Ash	Vanchai Sata Chai Jaturapitakkul Chaiyanunt Rattanashotinunt	2010	JOURNAL OF MATERIALS IN CIVIL ENGINEERING 10.0 (22.0), pp. 1033.0-1038.0	33	0	0	0	0	0	33
2.	Effects of binder and CaCl2 contents on the strength of calcium carbide residue-fly ash concrete	Nattapong Makaratat Chai Jaturapitakkul Charin Namarak Vanchai Sata	2011	CEMENT & CONCRETE COMPOSITES 3.0 (33.0), pp. 436.0-443.0	30	0	0	0	0	0	30
3.	Efficiency factor of high calcium Class F fly ash in concrete	V. Sata P. Khammathit P. Chindaprasirt	2011	COMPUTERS AND CONCRETE 5.0 (8.0), pp. 583.0-595.0	5	0	0	0	0	0	5
4.	Effect of W/B ratios on pozzolanic reaction of biomass ashes in Portland cement matrix	V. Sata J. Tangpagasit C. Jaturapitakkul P. Chindaprasirt	2012	CEMENT & CONCRETE COMPOSITES 1.0 (34.0), pp. 94.0-100.0	142	0	0	0	0	0	142
5.	Improved geopolymerization of bottom ash by incorporating fly ash and using waste gypsum as additive	Kornkanok Boonserm Vanchai Sata Kedsarin Pimraksa Prinya Chindaprasirt	2012	CEMENT & CONCRETE COMPOSITES 7.0 (34.0), pp. 819.0-824.0	49	0	0	0	0	0	49
6.	Microstructure and strength of blended FBC-PCC fly ash geopolymer containing gypsum as an additive	Kornkanok Boonserm Vanchai Sata Kedsarin Pimraksa Prinya Chindaprasirt	2012	SCIENCEASIA 2.0 (38.0), pp. 175.0-181.0	11	0	0	0	0	0	11
7.	Pervious high-calcium fly ash geopolymer concrete	Tawatchai Tho-in Vanchai Sata Prinya Chindaprasirt Chai Jaturapitakkul	2012	CONSTRUCTION AND BUILDING MATERIALS (30.0), pp. 366.0-371.0	63	0	0	0	0	0	63
8.	The effects of replacement fly ash with diatomite in geopolymer mortar	Theerawat Sinsiri Tanakorn Phoo-ngernkham Vanchai Sata Prinya Chindaprasirt	2012	COMPUTERS AND CONCRETE 6.0 (9.0), pp. 427.0-437.0	7	0	0	0	0	0	7
9.	High-Calcium Bottom Ash Geopolymer: Sorptivity, Pore Size, and Resistance to Sodium Sulfate Attack	Chaicharn Chotetanorm Prinya Chindaprasirt Vanchai Sata Sumrerng Rukzon Apha Sathonsaowaphak	2013	JOURNAL OF MATERIALS IN CIVIL ENGINEERING 1.0 (25.0), pp. 105.0-111.0	18	0	0	0	0	0	18
10.	High calcium fly ash geopolymer containing diatomite as additive	Tanakorn Phoo-ngernkham Prinya Chindaprasirt Vanchai Sata Theerawat Sinsiri	2013	INDIAN JOURNAL OF ENGINEERING AND MATERIALS SCIENCES 4.0 (20.0), pp. 310.0-318.0	13	0	0	0	0	0	13
11.	Lightweight geopolymer concrete containing aggregate from recycle lightweight block	Patcharapol Posi Chaiyapong Teerachanwit Chatchai Tanutong Suttikait Limkamoltip Surasit Lertnimoolchai Vanchai Sata Prinya Chindaprasirt	2013	MATERIALS & DESIGN (52.0), pp. 580.0-586.0	82	0	0	0	0	0	82
12.	Pressed lightweight concrete containing calcined diatomite aggregate	Patcharapol Posi Surasit Lertnimoolchai Vanchai Sata Prinya Chindaprasirt	2013	CONSTRUCTION AND BUILDING MATERIALS (47.0), pp. 896.0-901.0	25	0	0	0	0	0	25
13.	Properties of high calcium fly ash geopolymer pastes with Portland cement as an additive	Tanakorn Phoo-ngernkham Prinya Chindaprasirt Vanchai Sata Saengsuree Pangdaeng Theerawat Sinsiri	2013	INTERNATIONAL JOURNAL OF MINERALS METALLURGY AND MATERIALS 2.0 (20.0), pp. 214.0-220.0	58	0	0	0	0	0	58
14.	Properties of pervious geopolymer concrete using recycled aggregates	Vanchai Sata Ampol Wongsa Prinya Chindaprasirt	2013	CONSTRUCTION AND BUILDING MATERIALS (42.0), pp. 33.0-39.0	72	0	0	0	0	0	72
15.	Use of lightweight aggregates in pervious concrete	Yuwadee Zaetang Ampol Wongsa Vanchai Sata Prinya Chindaprasirt	2013	CONSTRUCTION AND BUILDING MATERIALS (48.0), pp. 585.0-591.0	62	0	0	0	0	0	62
16.	Effects of NaOH concentrations on physical and electrical properties of high calcium fly ash geopolymer paste	Sakonwan Hanjitsuwan Sitchai Hunpratub Prasit Thongbai Santi Maensiri Vanchai Sata Prinya Chindaprasirt	2014	CEMENT & CONCRETE COMPOSITES (45.0), pp. 9.0-14.0	185	0	0	0	0	0	185
17.	Influence of curing conditions on properties of high calcium fly ash geopolymer containing Portland cement as additive	Saengsuree Pangdaeng Tanakorn Phoo-ngernkham Vanchai Sata Prinya Chindaprasirt	2014	MATERIALS & DESIGN (53.0), pp. 269.0-274.0	163	0	0	0	0	0	163
18.	Investigation of properties of lightweight concrete with calcined diatomite aggregate	Patcharapol Posi Surasit Lertnimoolchai Vanchai Sata Tanakorn Phoo-ngernkham Prinya Chindaprasirt	2014	KSCE JOURNAL OF CIVIL ENGINEERING 5.0 (18.0), pp. 1429.0-1435.0	2	0	0	0	0	0	2
19.	The effect of adding nano-SiO2 and nano-Al2O3 on properties of high calcium fly ash geopolymer cured at ambient temperature	Tanakorn Phoo-ngernkham Prinya Chindaprasirt Vanchai Sata Sakonwan Hanjitsuwan Shigemitsu Hatanaka	2014	MATERIALS & DESIGN (55.0), pp. 58.0-65.0	171	0	0	0	0	0	171
20.	Apatite formation on calcined kaolin-white Portland cement geopolymer	S. Pangdaeng V. Sata J. B. Aguiar F. Pacheco-Torgal P. Chindaprasirt	2015	MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS (51.0), pp. 1.0-6.0	35	0	0	0	0	0	35
21.	High calcium fly ash geopolymer mortar containing Portland cement for use as repair material	Tanakorn Phoo-ngernkham Vanchai Sata Sakonwan Hanjitsuwan Charoenchai Ridtirud Shigemitsu Hatanaka Prinya Chindaprasirt	2015	CONSTRUCTION AND BUILDING MATERIALS (98.0), pp. 482.0-488.0	141	0	0	0	0	0	141
22.	Mechanical and Thermal Properties of Recycling Lightweight Pervious Concrete	Prinya Chindaprasirt Peem Nuaklong Yuwadee Zaetang Purimpat Sujumnongtokul Vanchai Sata	2015	ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING 2.0 (40.0), pp. 443.0-450.0	17	0	0	0	0	0	17
23.	Setting Time, Strength, and Bond of High-Calcium Fly Ash Geopolymer Concrete	Pattanapong Topark-Ngarm Prinya Chindaprasirt Vanchai Sata	2015	JOURNAL OF MATERIALS IN CIVIL ENGINEERING 7.0 (27.0), pp.	33	0	0	0	0	0	33
24.	Use of coal ash as geopolymer binder and coarse aggregate in pervious concrete	Yuwadee Zaetang Ampol Wongsa Vanchai Sata Prinya Chindaprasirt	2015	CONSTRUCTION AND BUILDING MATERIALS (96.0), pp. 289.0-295.0	46	0	0	0	0	0	46
25.	Bioactivity enhancement of calcined kaolin geopolymer with CaCl2 treatment	Saengsuree Pangdaeng Vanchai Sata J. B. Aguiar F. Pacheco-Torgal Jarin Chindaprasirt Prinya Chindaprasirt	2016	SCIENCEASIA 6.0 (42.0), pp. 407.0-414.0	12	0	0	0	0	0	12
26.	Compressive strength, Bending and Fracture Characteristics of High Calcium Fly Ash Geopolymer Mortar Containing Portland Cement Cured at Ambient Temperature	Tanakorn Phoo-ngernkham Vanchai Sata Sakonwan Hanjitsuwan Charoenchai Ridtirud Shigemitsu Hatanaka Prinya Chindaprasirt	2016	ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING 4.0 (41.0), pp. 1263.0-1271.0	63	0	0	0	0	0	63
27.	Influence of recycled aggregate on fly ash geopolymer concrete properties	Peem Nuaklong Vanchai Sata Prinya Chindaprasirt	2016	JOURNAL OF CLEANER PRODUCTION (112.0), pp. 2300.0-2307.0	93	0	0	0	0	0	93
28.	Interfacial Transition Zone of Pervious Cement and Geopolymer Concrete Containing Crushed Clay Brick	Vanchai Sata Ampol Wongsa Kiatsuda Somna Prinya Chindaprasirt	2016	CHIANG MAI JOURNAL OF SCIENCE 2.0 (43.0), pp. 402.0-408.0	2	0	0	0	0	0	2
29.	Properties of lightweight fly ash geopolymer concrete containing bottom ash as aggregates	Ampol Wongsa Yuwadee Zaetang Vanchai Sata Prinya Chindaprasirt	2016	CONSTRUCTION AND BUILDING MATERIALS (111.0), pp. 637.0-643.0	70	0	0	0	0	0	70
30.	Properties of pervious concrete containing high-calcium fly ash	V. Sata C. Ngohpok P. Chindaprasirt	2016	COMPUTERS AND CONCRETE 3.0 (17.0), pp. 337.0-351.0	20	0	0	0	0	0	20
31.	Properties of pervious concrete containing recycled concrete block aggregate and recycled concrete aggregate	Yuwadee Zaetang Vanchai Sata Ampol Wongsa Prinya Chindaprasirt	2016	CONSTRUCTION AND BUILDING MATERIALS (111.0), pp. 15.0-21.0	84	0	0	0	0	0	84
32.	Influence of mineral additives on the properties of pervious concrete	Yuwadee Zaetang Ampol Wongsa Vanchai Sata Prinya Chindaprasirt	2017	INDIAN JOURNAL OF ENGINEERING AND MATERIALS SCIENCES 6.0 (24.0), pp. 507.0-515.0	15	0	0	0	0	0	15
33.	Use of municipal solid waste incinerator (MSWI) bottom ash in high calcium fly ash geopolymer matrix	Ampol Wongsa Kornkanok Boonserm Chattichai Waisurasingha Vanchai Sata Prinya Chindaprasirt	2017	JOURNAL OF CLEANER PRODUCTION (148.0), pp. 49.0-59.0	130	0	0	0	0	0	130
34.	Compressive strength and m(i)crostructure analysis of geopolymer paste using waste glass powder and fly ash	Tawatchai Tho-In Vanchai Sata Kornkanok Boonserm Prinya Chindaprasirt	2018	JOURNAL OF CLEANER PRODUCTION (172.0), pp. 2892.0-2898.0	123	0	0	0	0	0	123
35.	EFFECT OF SODIUM HYDROXIDE CONCENTRATION AND SODIUM SILICATE TO SODIUM HYDROXIDE RATIO ON PROPERTIES OF CALCINED KAOLIN-WHITE PORTLAND CEMENT GEOPOLYMER	Saengsuree Pangdaeng Vanchai Sata Prinya Chindaprasirt	2018	INTERNATIONAL JOURNAL OF GEOMATE 46.0 (14.0), pp. 121.0-128.0	3	0	0	0	0	0	3
36.	Mechanical and thermal properties of lightweight geopolymer mortar incorporating crumb rubber	Ampol Wongsa Vanchai Sata Behzad Nematollahi Jay Sanjayan Prinya Chindaprasirt	2018	JOURNAL OF CLEANER PRODUCTION (195.0), pp. 1069.0-1080.0	47	0	0	0	0	0	47
37.	Mechanical Properties, Thermal Conductivity, and Sound Absorption of Pervious Concrete Containing Recycled Concrete and Bottom Ash Aggregates	Chanchai Ngohpok Vanchai Sata Thaned Satiennam Pongrid Klungboonkrong Prinya Chindaprasirt	2018	KSCE JOURNAL OF CIVIL ENGINEERING 4.0 (22.0), pp. 1369.0-1376.0	48	0	0	0	0	0	48
38.	PORTLAND CEMENT CONTAINING FLY ASH, EXPANDED PERLITE, AND PLASTICIZER FOR MASONRY AND PLASTERING MORTARS	Satakhun Detphan Tanakorn Phoo-ngernkham Vanchai Sata Chudapak Detphan Prinya Chindaprasirt	2018	INTERNATIONAL JOURNAL OF GEOMATE 48.0 (15.0), pp. 107.0-113.0	6	0	0	0	0	0	6
39.	Properties of metakaolin-high calcium fly ash geopolymer concrete containing recycled aggregate from crushed concrete specimens	Peem Nuaklong Vanchai Sata Prinya Chindaprasirt	2018	CONSTRUCTION AND BUILDING MATERIALS (161.0), pp. 365.0-373.0	90	0	0	0	0	0	90
40.	Recycled aggregate high calcium fly ash geopolymer concrete with inclusion of OPC and nano-SiO2	Peem Nuaklong Vanchai Sata Ampol Wongsa Korb Srinavin Prinya Chindaprasirt	2018	CONSTRUCTION AND BUILDING MATERIALS (174.0), pp. 244.0-252.0	61	0	0	0	0	0	61
41.	Use of crushed clay brick and pumice aggregates in lightweight geopolymer concrete	Ampol Wongsa Vanchai Sata Peem Nuakiong Prinya Chindaprasirt	2018	CONSTRUCTION AND BUILDING MATERIALS (188.0), pp. 1025.0-1034.0	60	0	0	0	0	0	60
42.	Properties of Concrete Pedestrian Blocks Containing Crumb Rubber from Recycle Waste Tyres Reinforced with Steel Fibres	Chalermphol Chaikaew Piti Sukontasukkul Udomvit Chaisakulkiet Vanchai Sata Prinya Chindaprasirt	2019	CASE STUDIES IN CONSTRUCTION MATERIALS (11.0), pp.	1	0	0	0	0	0	1
43.	Properties of high-calcium and low-calcium fly ash combination geopolymer mortar containing recycled aggregate	Peem Nuaklong Ampol Wongsa Vanchai Sata Kornkanok Boonserm Jay Sanjayan Prinya Chindaprasirt	2019	HELIYON 9.0 (5.0), pp.	8	0	0	0	0	0	8
44.	Resistance to algae and fungi formation of high calcium fly ash geopolymer paste containing TiO2	Soebpong Tuntachon Khanita Kamwilaisak Theerasak Somdee Wiyada Mongkoltanaruk Vanchai Sata Kornkanok Boonserm Ampol Wongsa Prinya Chindaprasirt	2019	JOURNAL OF BUILDING ENGINEERING (25.0), pp.	7	0	0	0	0	0	7
45.	UTILIZATION OF CRUMB RUBBER AS AGGREGATE IN HIGH CALCIUM FLY ASH GEOPOLYMER MORTARS	Yuwadee Zaetang Ampol Wongsa Prinya Chindaprasirt Vanchai Sata	2019	INTERNATIONAL JOURNAL OF GEOMATE 64.0 (17.0), pp. 158.0-165.0	0	0	0	0	0	0	0
46.	Influence of rice husk ash on mechanical properties and fire resistance of recycled aggregate high-calcium fly ash geopolymer concrete	Peem Nuaklong Pitcha Jongvivatsakul Thanyawat Pothisiri Vanchai Sata Prinya Chindaprasirt	2020	JOURNAL OF CLEANER PRODUCTION (252.0), pp.	31	0	0	0	0	0	31
47.	Natural fiber reinforced high calcium fly ash geopolymer mortar	Ampol Wongsa Ronnakrit Kunthawatwong Sakchai Naenudon Vanchai Sata Prinya Chindaprasirt	2020	CONSTRUCTION AND BUILDING MATERIALS (241.0), pp.	19	0	0	0	0	0	19
48.	Thermal and sound properties of concrete mixed with high porous aggregates from manufacturing waste impregnated with phase change material	Pattra Uthaichotirat Piti Sukontasukkul Peerapong Jitsangiam Cherdsak Suksiripattanapong Vanchai Sata Prinya Chindaprasirt	2020	JOURNAL OF BUILDING ENGINEERING (29.0), pp.	9	0	0	0	0	0	9
49.	Use of recycled aggregates in pressed fly ash geopolymer concrete	Ampol Wongsa Apinun Siriwattanakarn Peem Nuaklong Vanchai Sata Piti Sukontasukkul Prinya Chindaprasirt	2020	ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY 2.0 (39.0), pp.	7	0	0	0	0	0	7
50.	Effect of viscoelastic polymer on damping properties of precast concrete panel	Khemapat Tontiwattanakul Jirawin Sanguansin Vatanavongs Ratanavaraha Vanchai Sata Suchart Limkatanyu Piti Sukontasukkul	2021	HELIYON 5.0 (7.0), pp.	1	0	0	0	0	0	1

	Title	Authors	Year	Journal title

	Title	Authors	NRIIS type	Year	NRIIS Scholarship
1.	การใช้วัสดุเหลือทิ้งจากอุตสาหกรรมเพื่อผลิตจีโอโพลิเมอร์บล๊อกคอนกรีต	รศ.ดร. วันชัย สะตะ	โครงการ	2562	ทุนงบประมาณแผ่นดินประจำปี 2562 (งบบูรณาการวิจัยและนวัตกรรม)