Keywords: الیاف پلی پروپیلن; Asphalt mixture; Polypropylene fibers; Aramid fibers; Resilient modulus; Dynamic modulus; Flow number; Fatigue cracking; Reflective cracking;
مقالات ISI الیاف پلی پروپیلن (ترجمه نشده)
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Keywords: الیاف پلی پروپیلن; Chemical treatment; Polypropylene fibers; Fiber reinforcement; Pervious concrete; Flexural strength; Compressive strength;
Keywords: الیاف پلی پروپیلن; Spalling; Ultra-high performance concrete; Polypropylene fibers; Gas permeability; Thermal mismatch;
Keywords: الیاف پلی پروپیلن; Hybrid fiber reinforced concrete; Polyolefin fibers; Polypropylene fibers; Mechanical properties; Durability properties; Accelerated corrosion; RC beam;
Keywords: الیاف پلی پروپیلن; Geopolymer; Metakaolin; Colemanite; Silica fume; Polypropylene fibers; Abrasion resistance;
Keywords: الیاف پلی پروپیلن; Geo-grid; Polypropylene fibers; Beams;
Keywords: الیاف پلی پروپیلن; Reactive powder concrete; Polypropylene fibers; Elevated temperature; Mechanical properties; Microstructure;
Keywords: الیاف پلی پروپیلن; Flexural strength; Corrosion; Beams; Polypropylene fibers; Bond-slip;
Keywords: الیاف پلی پروپیلن; Sandwich panels; Sisal fibers; Cement composites; Lightweight concrete; Polypropylene fibers; Flexural behavior;
Keywords: الیاف پلی پروپیلن; Pull-out behavior; Polypropylene fibers; Fiber-matrix bond; Pull-out creep test;
Keywords: الیاف پلی پروپیلن; Precast tunnel segments; Macro-synthetic fibers; Polypropylene fibers; Flexural tests; Point load tests;
Keywords: الیاف پلی پروپیلن; A; aggregate; C; cement; CCE; compressive cracked absorbed energy (MPa); CPE; compressive pre-crack absorbed energy (MPa); CS; compressive strength (MPa); CTE; compressive total absorbed energy (MPa); CTI; compressive toughness index (â); FCE; flexural
Keywords: الیاف پلی پروپیلن; self-compacting concrete; hybrid fibers; steel fibers; polypropylene fibers; flexural tensile strength.;
Keywords: الیاف پلی پروپیلن; Soil blocks; Earthen construction; Polypropylene fibers; Flexural strength; Microstructural analysis;
Keywords: الیاف پلی پروپیلن; Elevated temperature; Hybrid concrete; Polypropylene fibers; Cracking; Steel fibers
Keywords: الیاف پلی پروپیلن; Steel fibers; Polypropylene fibers; Hybrid-fiber-reinforced concrete; High-strength concrete; Mechanical properties; Electrical resistivity; Water absorption;
Keywords: الیاف پلی پروپیلن; High-performance concrete; Pyrogenic nanosilica; Surface area; Steel fibers; Polypropylene fibers; Mechanical performance; Electrical resistivity; SEM
Keywords: الیاف پلی پروپیلن; Freeze-thaw cycling; Fine grained soil; Polypropylene fibers; UU triaxial test; SEM images;
Keywords: الیاف پلی پروپیلن; Polypropylene fibers; Silica Fume; Durability; Early age cracking; Carbonation
Keywords: الیاف پلی پروپیلن; Polypropylene reactive powder concrete (PPRPC); Thermal spalling; Vapor pressure mechanism; Polypropylene fibers; Elevated temperatures;
Keywords: الیاف پلی پروپیلن; High-performance concrete; Self-compacting concrete; Fire spalling; Superabsorbent polymers; Polypropylene fibers; Prestressed concrete; Carbon fibre reinforced plastic reinforcement
Keywords: الیاف پلی پروپیلن; Self compacting concrete; Carbon nanofibers; Polypropylene fibers; Early age concrete; Shrinkage; Cracking;
Keywords: الیاف پلی پروپیلن; Gypsum composite; Vermiculite; Polypropylene fibers; Thermal conductivity; Mechanical strength; Response surface methodology; Finite element modeling
Keywords: الیاف پلی پروپیلن; Steel fibers; Polypropylene fibers; Impact; Self-compacted concrete; Compressive strength
Keywords: الیاف پلی پروپیلن; Beams; Cracking; Ductility; Fibers; Fiber reinforced concrete; High-strength concrete; Carbon fibers; Polypropylene fibers; Aramid fibers; Alkali resistant glass fibers; Textile reinforced concrete; Flexural tests; Tension tests; Stress–strain; Toughness;
Keywords: الیاف پلی پروپیلن; Reinforced concrete; Polypropylene fibers; Concrete road pavements; Acoustic measurements; Strain measurements;
Keywords: الیاف پلی پروپیلن; Hernia-repair biomaterials; Plasma treatment; Polypropylene fibers; Surface modification; Oxidation mechanism;
Hybrid fiber reinforced self compacting concrete with fly ash and colloidal nano silica: A systematic study
Keywords: الیاف پلی پروپیلن; Self compacting concrete; Class F Fly ash; Colloidal nano silica; Crimped steel fibers; Polypropylene fibers; Hybrid fibers; Multiple linear regression analysis;
Practical Applications of Dispersely Reinforced Concrete with Polypropylene Fibers: Beams
Keywords: الیاف پلی پروپیلن; concrete beams; reinforcement; polypropylene fibers;
Effect of steel and synthetic fibers on shear strength of RC beams without shear stirrups
Keywords: الیاف پلی پروپیلن; Failure mechanism; Fiber reinforced concrete; Mechanical testing; Polypropylene fibers; Shear strength; Steel fibers;
Effectiveness of hybrid-fibers in improving the impact resistance of RC slabs
Keywords: الیاف پلی پروپیلن; Hybrid-fibers; Steel fibers; Polypropylene fibers; Kevlar fibers; Concrete; Penetration depth; Ballistic limit
Experimental investigation on flexural toughness of hybrid fiber reinforced concrete (HFRC) containing metakaolin and pumice
Keywords: الیاف پلی پروپیلن; Steel fibers; Polypropylene fibers; Flexural toughness; Impact resistance; Pumice; Metakaolin
Permeability measurement on high strength concrete without and with polypropylene fibers at elevated temperatures using a new test setup
Keywords: الیاف پلی پروپیلن; High-performance concrete (E); Permeability (C); Temperature (A); Polypropylene fibers; Microstructure (B)
Behavior of post-tensioned fiber concrete beams
Keywords: الیاف پلی پروپیلن; Partially prestressed; Fully prestressed; T-shaped; Steel fibers; Polypropylene fibers; Cracks-width; Flexural strength; Ductility; Energy absorption
High performance concrete under elevated temperatures
Keywords: الیاف پلی پروپیلن; High performance concrete; Elevated temperatures; Polypropylene fibers; Air entraining admixture; ESEM
Optimal polypropylene fiber amount determination by using gyratory compaction, static creep and Marshall stability and flow analyses
Keywords: الیاف پلی پروپیلن; Gyratory compaction; 100 mm specimens; Marshall compaction; Polypropylene fibers; Static creep; Universal testing machine; Stability; Flow; Optimal polypropylene amount
The long-term compressive strength and durability properties of silica fume fiber-reinforced concrete
Keywords: الیاف پلی پروپیلن; Fiber reinforced concrete; Polypropylene fibers; Silica fume; Concrete properties
The effects of polypropylene fibers on the properties of reinforced concrete structures
Keywords: الیاف پلی پروپیلن; Concrete; Polypropylene fibers; Compressive strength; Electric resistivity; Permeability
Self-compacting concrete incorporating filler additives: Performance at high temperatures
Keywords: الیاف پلی پروپیلن; Self-compacting concrete; Elevated temperature; Filler additives; Polypropylene fibers
Post-heating strength of fiber-reinforced concretes
Keywords: الیاف پلی پروپیلن; High temperature; Hot strength; Residual strength; Polypropylene fibers; Steel fibers
Abrasion resistance of concrete micro-reinforced with polypropylene fibers
Keywords: الیاف پلی پروپیلن; Micro-reinforced concrete; Polypropylene fibers; Abrasion resistance
Estimation of compressive strength of self compacting concrete containing polypropylene fiber and mineral additives exposed to high temperature using artificial neural network
Keywords: الیاف پلی پروپیلن; High temperature; Self-compacting concrete; Mineral additives; Artificial neural network; Polypropylene fibers
The effects of silica fume and polypropylene fibers on the impact resistance and mechanical properties of concrete
Keywords: الیاف پلی پروپیلن; Polypropylene fibers; Silica fume; Mechanical properties; Impact resistance
The influence of freeze–thaw cycles on the unconfined compressive strength of fiber-reinforced clay
Keywords: الیاف پلی پروپیلن; Freeze–thaw cycling; Kaolinite clay; Steel fibers; Polypropylene fibers
Comparison of compressive and splitting tensile strength of high-strength concrete with and without polypropylene fibers heated to high temperatures
Keywords: الیاف پلی پروپیلن; Compressive strength; High-strength concrete; High temperatures; Polypropylene fibers; Silica fume; Splitting tensile strength
Functional fibrous polypropylene solid support and its application in solid phase peptide synthesis and cell specific binding
Keywords: الیاف پلی پروپیلن; Polypropylene fibers; Radical grafting; Solid support; Peptide synthesis;
The effect of polypropylene fibers on asphalt performance
Keywords: الیاف پلی پروپیلن; Polypropylene fibers; Marshall stability; Flow; Fatigue life
Thermo-hydro-chemical couplings considered in safety assessment of shallow tunnels subjected to fire load
Keywords: الیاف پلی پروپیلن; Concrete; Fire; Spalling; Permeability; Polypropylene fibers; Tunnel lining; Layer concept; Level of loading; Collapse
Identification of residual gas-transport properties of concrete subjected to high temperatures
Keywords: الیاف پلی پروپیلن; Concrete; Durability; Permeability; Pore space; Fire; Polypropylene fibers
How do polypropylene fibers improve the spalling behavior of in-situ concrete?
Keywords: الیاف پلی پروپیلن; Fire; Spalling; Permeability; Polypropylene fibers; Mercury porosimetry; Workability