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The viability of polypropylene (PPF) eco bags as weather resistant additive for cylinder concrete / by Arianna Lorene M. Tallo, Keira Ann T. Quiblatin, Stephanie S. Alonzaga, Azaleah Jaira S. Cajandig, Jeb Sebastien I. Tubilla, & Uriel Emmanuel M. Lao.

Contributor(s): Tallo, Arianna Lorene M | Quiblatin, Keira Ann T | Alonzaga, Stephanie S | Cajandig, Azaleah Jaira S | Tubilla, Jeb Sebastien I | Lao, Uriel Emmanuel M.

Publisher: [Iloilo City] : [Ateneo de Iloilo], c2025Description: 34 p.Subject(s): Polypropylene fibers--Testing | Plastic scrap | Cylinders--ConcreteDDC classification: Ref 373.07 V65 2025 Summary: This study examines the effects of polypropylene fiber (PPF) additives on concrete cylinder blocks, specifically compressive strength, water absorption, and specific gravity. Concrete samples with o%, 5%, and 15% PPF were tested, and results analyzed using the Kruskal-Wallis test showed no statistically significant difference among the groups. However, increasing PPF content led to higher water absorption, reduced weight, and a slight decrease in compressive strength. None of the samples met the Department of Public Works and Highways (DPWH) standard of 3000 psi for compressive strength, and all exceeded the 3% water absorption limit for durability. While PPF-modified concrete offers benefits like lower density and plastic waste repurposing, its mechanical properties may limit its use in load-bearing structures.

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Item type	Current location	Home library	Collection	Call number	Copy number	Status	Date due	Barcode	Item holds
Book	High School Library	High School Library	Filipiniana	Ref 373.07 V65 2025 (Browse shelf)	1	Available		HSD-141

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Previous	Ref 373.07 Un22 2025 Understanding the pricing strategies of Atria Park District restaurants /	Ref 373.07 Ut3 2025 Utilizing corn (Zea mays) and cassava (Manihot esculenta) starch extracts as biodegradable spoon and fork /	Ref 373.07 V65 2025 The viability of ecosnoozze :	Ref 373.07 V65 2025 The viability of polypropylene (PPF) eco bags as weather resistant additive for cylinder concrete /	Ref 373.07 V679 2025 Views of grade 11 students in Ateneo de Iloilo - Santa Maria Catholic School towards the Gizmo app /	Ref 373.07 W2911 2025 The water solubility of boiled and unboiled calamansi (Citrus x microcarpa) peels in bioplastic production /

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This study examines the effects of polypropylene fiber (PPF) additives on concrete cylinder blocks, specifically compressive strength, water absorption, and specific gravity. Concrete samples with o%, 5%, and 15% PPF were tested, and results analyzed using the Kruskal-Wallis test showed no statistically significant difference among the groups. However,
increasing PPF content led to higher water absorption, reduced weight, and a slight decrease in compressive strength. None of the samples met the Department of Public Works and Highways (DPWH) standard of 3000 psi for compressive strength, and all exceeded the 3% water absorption limit for durability. While PPF-modified concrete offers benefits like lower density and plastic waste repurposing, its mechanical properties may limit its use in load-bearing structures.

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