"Application of the Combined Method for Evaluating the Compressive Strength of Concrete on Site"
written by Samia Hannachi, Mohamed Nacer Guetteche,
published by Open Journal of Civil Engineering, Vol.2 No.1, 2012
has been cited by the following article(s):
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[9] In-Situ Testing of Concrete Structures–A Review
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[10] Recent advances in non-destructive testing of concretes and structures: An outlook
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[11] Statistical Equations to Estimate the In-situ Concrete Compressive Strength from Non-destructive Tests
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[14] The Effect of Different Equations and Methods on R-Square Values of Ndt Correlations
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[15] Development of Prediction Models for Mechanical Properties and Durability of Concrete Using Combined Nondestructive Tests
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[16] Adapting ANNs in SONREB Test to Estimate Concrete Compressive Strength
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[20] Evaluation of statistical parameters of concrete strength from secondary experimental test data
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[21] Mechanical Properties Of Lightweight Aggregates Concrete Made With Cameroonian Volcanic Scoria: Destructive And Non-Destructive Characterization
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[22] Effects of Sand Quality on Strength Properties of Concrete: A Case Study on Nairobi City County and Its Environs
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[23] Static and Dynamic Indicators for Composite Bridges
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[24] Evaluation of maximum and minimum corrosion rate of steel rebars in concrete structures, based on laboratory measurements on drilled cores
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[25] On-site strength assessment of limestone based concrete slabs by combining non-destructive techniques
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[26] Utilization of Combined NDT in the Concrete Strength Evaluation of Core Specimen from Existing Building
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[27] Accuracy in Predicting the Compressive Strength of Concrete Using SonReb Method
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[28] Review of Non-Destructive Tests for Evaluation of Historic Masonry and Concrete Structures
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[29] A Decision Support System for the Condition Assessment of Distressed Concrete Buildings
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[32] of the Research Paper
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[33] Étude de caractérisation et corrélation aux moyens des essais non-destructifs (NDT) et essai direct d'un béton à haute performance (BHP) à base de matériaux locaux
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[34] Ultrasonic Wave Attenuation as a Parameter for Concrete Strength Prediction
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[35] Statistical Modeling and Prediction of Compressive Strength of High Performance Concrete
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[36] Experimental studies in Ultrasonic Pulse Velocity of roller compacted concrete pavement containing fly ash and M-sand
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[37] Vidivelli B and Subbulakshmi T
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[38] Advancing concrete strength prediction using non-destructive testing: Development and verification of a generalizable model
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[39] Ultrasonic Pulse Velocity Investigation of Polypropylene and Steel Fiber Reinforced Concrete
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[40] Relationship between Ultrasonic Pulse Velocity and Compressive Strength for Roller Compacted Concrete containing GGBS
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[41] Koreksi Pembacaan Ultrasonic Pulse Velocity (UPV) Terhadap Kesalahan Akibat Ketidakstabilan Posisi Tranducer
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[42] Korelasi Nilai Kuat Tekan Beton Antara Hammer Test, Ultrasonic Pulse Velocity (UPV) Dan Compression Test
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[43] Evaluation of Dynamic Elastic Modulus of Roller Compacted Concrete Containing GGBS and M-Sand
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[44] Non Destructive Testing for In place strength of RC Structures by Combined Methods.
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[45] Improving Non-Destructive Concrete Strength Tests Using Support Vector Machines
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[46] Evaluation the Compressive Strength in Concrete Structures Using the In-situ Test Methods
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[47] INFLUENCE OF THE AGE OF FINE-GRAINED CINDER CONCRETE ON ITS STRENGTH CHARACTERISTICS.
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[48] An Investigation of Physico-Mechanical Properties of Some Chosen Concrete Mixtures by Ultrasonic Pulse Velocity (UPV) Techniques
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[49] Use of the Schmidt rebound hammer for non destructive concrete structure testing in field
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[50] Study of the Physico-Mechanical Properties of a Recycled Concrete Incorporating Admixtures by the Means of NDT Methods
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[51] PENGGUNAAN METODE ULTRASONIC PULSE VELOCITY TEST UNTUK MEMPERKIRAKAN KEKUATAN DAN KESERAGAMAN MUTU BETON K 200 SECARA …
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[53] Self Consolidating High Performance Palm Oil Fuel Ash and Pulverised Burnt Clay Blended Concrete
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[55] Évaluation non destructive des structures en béton armé
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[56] Comparison of Concrete Properties determined by Destructive and Non-Destructive Tests
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[57] Évaluation non destructive des structures en béton armé: étude de la variabilité spatiale et de la combinaison des techniques
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[58] Predictive equations for compressive strength of concrete based on Schmidt hammer rebound and ultrasonic pulse velocity data
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[59] Effect of solid wastes on the characteristics behaviour of petroleum products soaked concrete–A Review
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[60] Prediction of Compressive Strength Using Artificial Neural Network
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[61] PERBANDINGAN KEKUATAN BETON BERDASARKAN HASIL ULTRASONIC PULSE VELOCITY TEST DENGAN UJI TEKAN (020M)
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[62] Predictive Equations for Compressive Strength of Concrete Based on Schmidt Hammer Rebound and Ultrasonic Pulse Velocity Data.
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[63] FORMULA TO DETERMINE CONCRETE STRENGTH
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