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Asst.Prof.Dr. Ampol Wongsa

ภาควิชาวิศวกรรมโยธา,

Faculty of Engineering,

Khon Kaen University

55587647500: H-INDEX 24

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.	Properties of pervious geopolymer concrete using recycled aggregates	Sata, V. Wongsa, A. Chindaprasirt, P.	2013
2.	Use of lightweight aggregates in pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2013
3.	Use of coal ash as geopolymer binder and coarse aggregate in pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2015
4.	Interfacial transition zone of pervious cement and geopolymer concrete containing crushed clay brick	Sata, V. Wongsa, A. Chindaprasirt, P.	2016
5.	Properties of lightweight fly ash geopolymer concrete containing bottom ash as aggregates	Wongsa, A. Zaetang, Y. Sata, V. Chindaprasirt, P.	2016
6.	Properties of pervious concrete containing recycled concrete block aggregate and recycled concrete aggregate	Zaetang, Y. Sata, V. Wongsa, A. Chindaprasirt, P.	2016
7.	Influence of mineral additives on the properties of pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2017
8.	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
9.	Mechanical and thermal properties of lightweight geopolymer mortar incorporating crumb rubber	Wongsa, A. Sata, V. Chindaprasirt, P.	2018
10.	Recycled aggregate high calcium fly ash geopolymer concrete with inclusion of OPC and nano-SiO2	Nuaklong, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2018
11.	Use of crushed clay brick and pumice aggregates in lightweight geopolymer concrete	Wongsa, A. Sata, V. Nuaklong, P. Chindaprasirt, P.	2018
12.	Lightweight geopolymer concrete containing recycled plastic beads	Posi, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2019
13.	Pre-Crack Behaviours of Cement Paste Containing Bacillus pseudofirmus ATCC 700159	Chindaprasirt, P. Wongsa, A. ,	2019
14.	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
15.	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
16.	Utilization of crumb rubber as aggregate in high calcium fly ash geopolymer mortars	Zaetang, Y. Wongsa, A. Chindaprasirt, P. Sata, V.	2019
17.	Comparative study of fire-resistant behaviors of high-calcium fly ash geopolymer mortar containing zeolite and mullite	Wongsa, A. Tanangteerapong, D. Chindaprasirt, P.	2020
18.	Natural fiber reinforced high calcium fly ash geopolymer mortar	Wongsa, A. Sata, V. Chindaprasirt, P.	2020
19.	Portland Cement-TiO2 triboelectric nanogenerator for robust large-scale mechanical energy harvesting and instantaneous motion sensor applications	Harnchana, V. Amornkitbamrung, V. Wongsa, A. Chindaprasirt, P.	2020
20.	Use of recycled aggregates in pressed fly ash geopolymer concrete	Wongsa, A. Nuaklong, P. Sata, V. Chindaprasirt, P.	2020
21.	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
22.	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
23.	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
24.	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
25.	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
26.	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
27.	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
28.	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
29.	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
30.	Geopolymer composites containing recycled plastics and waste glass	Sata, V. Wongsa, A. Ekprasert, J. Chindaprasirt, P.	2024
31.	Hybrid alkali-activated fly ash-Portland cement binders with modified polymer as patch repair	Detphan, S. Hanjitsuwan, S. Pangdaeng, S. Phoo-ngernkham, T. Damrongwiriyanupap, N. Wongsa, A. Sukontasukkul, P.	2024
32.	Enhanced strength reduced modulus high calcium FA geopolymer concrete containing recycled aggregate concrete and Portland cement	Wongkvanklom, A. Posi, P. Wongsa, A. Zaetang, Y. Yodsudjai, W.	2025
33.	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
34.	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
35.	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
36.	STRESS-STRAIN RELATIONSHIP OF GEOPOLYMER CONCRETE UNDER COMPRESSIVE LOADING	Janpila, A. Foytong, P. Posi, P. Laungekatin, N. Wongsa, A. Sata, V. Chindaprasirt, P.	2025
37.	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
38.	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
39.	Utilization of Plastic Waste in Fly Ash Geopolymer Concrete Containing Recycled Concrete Aggregate for Pavements	Wongkvanklom, A. Posi, P. Zaetang, Y. Wongsa, A. Pangdaeng, S.	2025
	Count			39	0	0	0

	Title	Authors	Year	Publication name	Cited count
	Title	Authors	Year	Publication name	< 2020	2021	2022	2023	2024	2025	Total
1.	Properties of pervious geopolymer concrete using recycled aggregates	Sata, V. Wongsa, A. Chindaprasirt, P.	2013	Construction and Building Materials (42), pp. 33-39
2.	Use of lightweight aggregates in pervious concrete	Zaetang, Y. Wongsa, A. Sata, V. Chindaprasirt, P.	2013	Construction and Building Materials (48), pp. 585-591
3.	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
4.	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
5.	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
6.	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
7.	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
8.	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
9.	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
10.	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
11.	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
12.	Lightweight geopolymer concrete containing recycled plastic beads	Posi, P. Sata, V. Wongsa, A. , Chindaprasirt, P.	2019	Key Engineering Materials (801 KEM), pp. 377-384
13.	Pre-Crack Behaviours of Cement Paste Containing Bacillus pseudofirmus ATCC 700159	Chindaprasirt, P. Wongsa, A. ,	2019	Key Engineering Materials (801), pp. 371-376
14.	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.
15.	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.
16.	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
17.	Comparative study of fire-resistant behaviors of high-calcium fly ash geopolymer mortar containing zeolite and mullite	Wongsa, A. Tanangteerapong, D. Chindaprasirt, P.	2020	Journal of Sustainable Cement-Based Materials 5 (9), pp. 307-321
18.	Natural fiber reinforced high calcium fly ash geopolymer mortar	Wongsa, A. Sata, V. Chindaprasirt, P.	2020	Construction and Building Materials (241), pp.
19.	Portland Cement-TiO<inf>2</inf> triboelectric nanogenerator for robust large-scale mechanical energy harvesting and instantaneous motion sensor applications	Harnchana, V. Amornkitbamrung, V. Wongsa, A. Chindaprasirt, P.	2020	Nano Energy (74), pp.
20.	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.
21.	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.
22.	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.
23.	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.
24.	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.
25.	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.
26.	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.
27.	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
28.	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.
29.	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.
30.	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
31.	Hybrid alkali-activated fly ash-Portland cement binders with modified polymer as patch repair	Detphan, S. Hanjitsuwan, S. Pangdaeng, S. Phoo-ngernkham, T. Damrongwiriyanupap, N. Wongsa, A. Sukontasukkul, P.	2024	Construction and Building Materials (436), pp.
32.	Enhanced strength reduced modulus high calcium FA geopolymer concrete containing recycled aggregate concrete and Portland cement	Wongkvanklom, A. Posi, P. Wongsa, A. Zaetang, Y. Yodsudjai, W.	2025	Cleaner Waste Systems (12), pp.
33.	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.
34.	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
35.	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.
36.	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
37.	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.
38.	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.
39.	Utilization of Plastic Waste in Fly Ash Geopolymer Concrete Containing Recycled Concrete Aggregate for Pavements	Wongkvanklom, A. Posi, P. Zaetang, Y. Wongsa, A. Pangdaeng, S.	2025	Arabian Journal for Science and Engineering 11 (50), pp. 7831-7845

	Title	Authors	Year	Journal title

	Title	Authors	Year	Journal title	Cited count
	Title	Authors	Year	Journal title	< 2020	2021	2022	2023	2024	2025	Total

	Title	Authors	Year	Journal title

	Title	Authors	NRIIS type	Year	NRIIS Scholarship