รศ.ดร. วีรชาติ ตั้งจิรภัทร

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กลุ่มสาขาการวิจัยเชิงกลยุทธ์

ผลงานตีพิมพ์

  

  

  

5 จาก 7

  

  

  

• ● Strength, chloride resistance, and water permeability of high volume sugarcane bagasse ash high strength concrete incorporating limestone powder; Klathae T., Tran T.N.H., Men S., et al.; 2021; บทความในวารสาร
• ● Autogenous and drying shrinkages of mortars and pore structure of pastes made with activated binder of calcium carbide residue and fly ash; Dueramae, Saofee; Tangchirapat, Weerachart; Chindaprasirt, et al.; 2020; บทความในวารสาร
• ● Effect of fly ash/silica fume ratio and curing condition on mechanical properties of fiber-reinforced geopolymer; Sukontasukkul P., Chindaprasirt P., Pongsopha P., et al.; 2020; บทความในวารสาร
• ● Engineering properties of ancient masonry materials in Thailand and substitution materials for historical structures preservation; Mahasuwanchai P., Wonganan N., Athisakul C., et al.; 2020; Conference proceedings article
• ● Heat evolution, strengths, and drying shrinkage of concrete containing high volume ground bagasse ash with different LOIs; Klathae T., Tanawuttiphong N., Tangchirapat W., et al.; 2020; บทความในวารสาร
• ● Investigation of hard-burn and soft-burn lime kiln dust as alternative materials for alkali-activated binder cured at ambient temperature; Jitsangiam, P; Suwan, T; Wattanachai, et al.; 2020; บทความในวารสาร
• ● Performance of recycled aggregate concrete with rice husk ash as cement binder; Rattanachu P., Toolkasikorn P., Tangchirapat W., et al.; 2020; บทความในวารสาร
• ● The mechanical properties and heat development behavior of high strength concrete containing high fineness coal bottom ash as a pozzolanic binder; Khongpermgoson P., Boonlao K., Ananthanet N., et al.; 2020; บทความในวารสาร
• ● Thermal behaviour of concrete sandwich panels incorporating phase change material; Sukontasukkul P., Sangpet T., Newlands M., et al.; 2020; บทความในวารสาร
• ● Thermal storage properties of lightweight concrete incorporating phase change materials with different fusion points in hybrid form for high temperature applications; Sukontasukkul P., Sangpet T., Newlands M., et al.; 2020; บทความในวารสาร
• ● Environmentally friendly interlocking concrete paving block containing new cementing material and recycled concrete aggregate; Abdulmatin A., Tangchirapat W., Jaturapitakkul C.; 2019; Conference proceedings article
• ● Evaluation of compressive strength and resistance of chloride ingress of concrete using a novel binder from ground coal bottom ash and ground calcium carbide residue; Khongpermgoson P., Abdulmatin A., Tangchirapat W., et al.; 2019; บทความในวารสาร
• ● Evaluation of Strengths from Cement Hydration and Slag Reaction of Mortars Containing High Volume of Ground River Sand and GGBF Slag; Norrarat P., Tangchirapat W., Songpiriyakij S., et al.; 2019; บทความในวารสาร
• ● Investigation of compressive strength and microstructures of activated cement free binder from fly ash - calcium carbide residue mixture; Dueramae S., Tangchirapat W., Sukontasukkul P., et al.; 2019; บทความในวารสาร
• ● Strength, Elastic Modulus, and Creep of High-Strength Concrete Produced with Bagasse Ash and Recycled Concrete Aggregate; Rattanachu, Pokpong; Tangchirapat, Weerachart; Jaturapitakkul, et al.; 2019; บทความในวารสาร
• ● Strength, elastic modulus, and creep of high-strength concrete produced with bagasse ash and recycled concrete aggregate; Rattanachu P., Tangchirapat W., Jaturapitakkul C., et al.; 2019; บทความในวารสาร
• ● Water Permeability and Sulfate Resistance of Eco-Friendly High-Strength Concrete Composed of Ground Bagasse Ash and Recycled Concrete Aggregate; Rattanachu P., Tangchirapat W., Jaturapitakkul C.; 2019; บทความในวารสาร
• ● An investigation of bottom ash as a pozzolanic material; Abdulmatin A., Tangchirapat W., Jaturapitakkul C.; 2018; บทความในวารสาร
• ● Bar-concrete bond in mixes containing calcium carbide residue, fly ash and recycled concrete aggregate; Namarak C., Tangchirapat W., Jaturapitakkul C.; 2018; บทความในวารสาร
• ● Development of concrete paving blocks prepared from waste materials without Portland cement; Namarak C., Bumrungsri C., Tangchirapat W., et al.; 2018; บทความในวารสาร

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