Journal of
Civil Engineering and Construction Technology

  • Abbreviation: J. Civ. Eng. Constr. Technol.
  • Language: English
  • ISSN: 2141-2634
  • DOI: 10.5897/JCECT
  • Start Year: 2010
  • Published Articles: 135

Review

Recent advances in non- destructive testing of concretes and structures: An outlook

Erhimona Okiemute Grace
  • Erhimona Okiemute Grace
  • Welding Engineering and Offshore Technology Department, Directorate of Engineering, Petroleum Training Institute Warri, Delta State, Nigeria.
  • Google Scholar
Andrew John
  • Andrew John
  • Welding Engineering and Offshore Technology Department, Directorate of Engineering, Petroleum Training Institute Warri, Delta State, Nigeria.
  • Google Scholar


  •  Received: 24 January 2019
  •  Accepted: 19 March 2019
  •  Published: 31 August 2019

References

Ahmad S (2003). Reinforcement corrosion in concrete structures, its monitoring and service life prediction-a review. Cement and Concrete Composites 25(5):459-471.
Crossref

 

American Society of Non-destructive Testing (2019). Codes and Standards Overview,

View

 

Carino NJ, Sansalone MJ, Hsu NN (1986). A point sourcepoint receiver, pulse-echo technique for flaw detection in concrete. American Concrete Institute Journal 83:199-208.
Crossref

 

Chang P, Flatau A, Liu S (2003). Review paper: health monitoring of civil infrastructure, Structural. Health Monitoring 2(3):257-267.
Crossref

 

Concrete Preservation Technologies (2017). 

View

 

Constructor (2018) 

View

 

Duaka U (2016). Non-Destructive Testing (NDT) Technology as a Tool For Nigeria's Technology Lift-Off, A paper presented at Skills Development & Resource Centre (Classrooms in the Industry) @ Bells University of Technology, Ota, Ogun State-Nigeria.

 

GSMA (2018). 

View

 

Grosse CU, Reinhardt HW, Krüger M, Beutel R (2005). Application of Impact-Echo Techniques for Crack Detection and Crack Parameter Estimation in Concretes. 11th International Conference on Fracture, Turin, Italy, 20-25 March, 2005.

 

Helal J, Sofi M, Mendis P (2015). Non-destructive testing: A review of methods. Special Issue: Electronic Journal of Structural Engineering 14(1):97-105.

 

Hannachi S, Guetteche MN (2012). Application of the Combined Method for Evaluating the Compressive Strength of Concrete on Site. Open Journal of Civil Engineering 2012(2):16-21.
Crossref

 

Ismail MP (2017) Selection of suitable NDT methods for building inspection, IOP Conf. Series: Materials Science and Engineering 271, 012085 
Crossref

 

Islam A, Li F, Hamid H, Jaroo A (2014). Bridge Condition Assessment and Load Rating using Dynamic Response, The national Academy of Science, Engineering and Medicines, 

View

 

Jackson S (2010). Architecting Resilient Systems, Accident Avoidance and Survival and Recovery from Disruptions", Wiley Series in Systems Engineering and Management, ISBN: 978-0-470-40503-1.

 

John A, Nwaoha TC (2016). Safety Critical Maritime Infrastructure Systems Resilience: A Critical Review, International Journal of Maritime Engineering 158(A3):209-218.

 

Kierkegaard-Hansen P (1975). Lokl-strength. Stockholm: Nordisk Betong.

 

Lin CC, Liu PL, Yeh PL (2009). Application of empirical mode decomposition in the impact-echo test. NDT & E International 42(7):589-598..
Crossref

 

Lung AE, Murray A (1983). The Pull-off Partially Destructive Test for Concrete, in: In-situ Non-destructive Testing of Concrete, SP-82, Detroit, American Concrete Institute.

 

Mansouri M, Nilchiani R, Mostashari A (2010). A Policy Making Framework for Resilient Port Infrastructure Systems. Marine Policy. 34:1125-1134.
Crossref

 

McCann D, Forde M (2001). Review of NDT methods in the assessment of concrete and masonry structures. NDT&E International pp. 71-84.
Crossref

 

Meier J, Tsalicoglou I, Mennicke R (2017). The future of Non-Destructive Testing (NDT) with wireless sensors, Artificial Intelligence and Internet of Things. 15th Asia Pacific Conference for Non-Destructive Testing (APCNDT2017), Singapore, November 16, 2017.

 

Ontario Bridge/Structure Inspector Manual (OSIM) (2016). Remarks on Ontario Bridge Inspector Manual 

View

 

Ontario Structure Inspection Manual (OSIM) (2008). Types and Causes of Concrete Deterioration, Concrete Information, 

View

 

Portland Cement Association (PCA) (2001). Concrete Slab Surface Defects: Causes, Prevention, Repair, PCA R&D Serial No. 2155, ISBN No. 0-89312-212-Z

 

Pereira E, Medeiros MHF (2012). Pull Off test to evaluate the compressive strength of concrete: an alternative to Brazilian standard techniques. Rev. IBRACON Estrut. Mater 5(6) São Paulo. 
Crossref

 

Rayleigh J (1945). Theory of Sound (2nd Edition ed.). New York: Dover Press.

 

Rehman SKU, Ibrahim Z, Memon SA, Jameel M (2016). Non-destructive test methods for concrete bridges: A review, Construction and Building Materials. 107(2016):58-86.
Crossref

 

Rummel WD (2014). Non-destructive evaluation, A critical part of structural integrity, Procedia and Engineering 86(2014):375-383.
Crossref

 

Seuss B (2017). Smart Concrete Paves the way to Safer and Cheaper Infrastructure, Global Systems for Mobile Communication Association,

View

 

Sansalone M, Carino NJ (1986). Impact-Echo: A Method for Flaw Detection in Concrete Using Transient Stress Waves; National Bureau of Standard: Gaithersburg, MD, USA.
Crossref

 

Shull P (2002). Nondestructive Evaluation: Theory, Techniques and Applications. New York:Marcel Dekker, Inc.
Crossref

 

Wang J, Trbojevic VM (2007). Design for Safety of Large Marine and Offshore Engineering Products. Institute of Marine Engineering, Science and Technology (IMarEST), London, UK, ISBN: 1-902536-58-4.

 

Zhang Y, Xie ZH (2012). Ensemble empirical mode decomposition of impact-echo data for testing concrete structures. NDT & E International 51:74-84.
Crossref

 

Zhang JK, Yan W, Cui DM (2016). Concrete Condition Assessment Using Impact-Echo Method and Extreme Learning Machines. Sensors 16(4):447.
Crossref