Monitoring Steel Corrosion Challenges

Slides:

Advertisements

Similar presentations

CONREPNET A project 50% funded by the EU Partners: BRE, UK Gifford, UK CT Koulutos, Finland Freyssinet, France BBRI, Belgium IETcc, Spain STU-K, Czech.

Advertisements

Findings from On-site Inspection (Rt 202/US Rt 23 BRIDGE)

1 Analysis of Test Results 2 What we’ll have to do: Load-Deflection curve. Load Vs Strain curve for steel and concrete Find yield load (  s = 0.002)

Cracking, Deflections and Ductility Code Provisions and Recent Research October 2006 Serviceability and Ductility The Other Limit States.

Distress, Evaluation, and Repair of Historic Concrete Jarkko Simonen, P.E. Wiss, Janney, Elstner Associates, Inc.

Arson. The Common Accelerants  The most commonly used accelerants are petrol, kerosene, mineral turpentine and diesel.  These accelerants are generally.

Bonded Repair of R/C Bridge Components using FRP Wrapping – McDade Road Bridge over US 40 Peter Chang Bala Balaguru March 23, 2010.

Concrete Condensed1 Cement Production, Composition & Types.

1 Remaining Life of Concrete Sleepers: A Multifaceted Approach A/Prof Alex Remennikov School of Civil, Mining and Environmental Engineering University.

“Slickline Fatigue Tracking Software Delivers Economic Benefits”

4th November 2005 Towards Unified Bond Modelling for the Structural Behaviour of GFRP-RC Kypros Pilakoutas Harsha Sooriyaararachchi Maurizio Guadagnini.

How long will your concrete bridge last?

Stick Scanner Image example Procedures Insert stick scanner to a drilled hole and turn adjuster to scan image.

FRP Reinforcement of Concrete

LECTURER6 Factors Affecting Mechanical Properties

NE 110 – Introduction to NDT & QA/QC

Fiber-Reinforced Polymer (FRP)

The nature of concrete can be determined through petrographic examinination.

REPAIR MANUAL Dr. Mohammed Maslehuddin Research Institute

Introduction The service life of concrete elements in highway bridges is often limited by the corrosion deterioration of reinforcing bars. In cold regions,

Abstract This paper presents an experimental investigation on the flexural failure behavior of RC Beams having different weight loss of 0, 5, 10 and 30%

Structural Engineering

Field Testing of Reinforced Concrete Structures (with references to International Standards) F.Papworth Buildings Mines Industrial Historical.

Eddy Current Testing This method is widely used to detect surface flaws, to measure thin walls from one surface only, to measure thin coatings and in some.

INSPECTION OF PRESTRESSED CONCRETE ROAD BRIDGES BY ULTRASOUND 3D TOMOGRAPHER SYSTEM Eng. Guy Rapaport Infrastructure & Transport, Finland.

Concrete Technology Steel (CH10) Lecture 19 Eng: Eyad Haddad.

One Team: Relevant, Ready, Responsive and Reliable Navigation Lock and Dam Inspection and Emergency Repairs Workshop ERDC Vicksburg, Mississippi Concrete.

REPAIRS AND REHABILITATION OF STRUCTURES UNIT – II

STRUCTURES Outcome 3 Gary Plimer 2008 MUSSELBURGH GRAMMAR SCHOOL.

FAA Workshop Chicago Strength and Damage Tolerance of Adhesively Bonded Joints: Stress-Based and Fracture-Based Approaches Hyonny Kim Assistant.

Hugo Faria | 11 th September 2007 H 2 High Pressure On-Board Storage Considering Safety Issues André Vieira Hugo Faria Rui de Oliveira Nuno Correia António.

MCI Lab & Field Testing Andrea Hansen Jessi Meyer Matt Drew.

CONSTRUCTION MATERIALS

Sampling and Measurement for Inorganic Gaseous Pollutants.

Instrumentation 2 Displacement Transducers Higher Certificate in Technology (Manufacturing Technology)

Nanometers? Tiny sensors embedded in concrete will collect physical and chemical data Presented By: Ghada Mohamed Abd ElFattah By: Deborah Snoonian, P.E.

1. 2 Back-up Slides 3 Shield Building Laminar Cracking: Architectural Flute Shoulders.

Temperature Rise Peak temp. profile Strength required to stop curing 7day curing typical for GPC concrete is reduced to 1-3days Strength required to support.

Properties of Concrete Design and Control of Concrete Mixtures – Chapter 9.

EGM 5653 Advanced Mechanics of Materials

Institute of Building Materials Research Conservations Repair and Polymer Composites RWTH Aachen University, Germany “Who`s managing the quality in the.

Preliminary slide This lecture is designed to be used to overview NDT methods in order to make students appreciate the capabilities of present day technology.

Introduction Electrical Steels (Soft Magnetic Materials) Core Losses : The energy that is dissipated in the form of heat within.

CE UNIT 1  Maintenance is the act of keeping something in good condition by checking or repairing it regularly.

4/28/2017 Stress Corrosion Cracking Assessment in Pipeline Mohammed Abu Four October 11, 2010.

Electromagnetic Testing (ET). Electromagnetic Testing Electromagnetic testing is a general test category that includes Eddy Current testing (ECT), Alternating.

Introduction to Nondestructive Testing

Initial Condition Assessment: Concrete Traffic

Level II Inspection.

Workshop on Cracking and Durability of Reinforced Concrete

Pressure Vessel Inspection Techniques

Eddy Current Inspection

How long will your concrete bridge last?

Introduction to Bridge INspection

Ultrasonic Technology Eddy Current Technology

REPAIR AND REHABILITATION OF STRUCTURES

Georgia Institute of Technology PHM17 Conference

Melanie Reid, Emma Perfect and Fiona Mackay, LUX Assure Ltd.

Concrete Surface Repair Technician

Mariusz Jaśniok Tomasz Jaśniok

Nondestructive Testing

Transportation agencies are increasingly focused on asset management

What are the Common Signs of Electrical Problems in your Car.

How long will your concrete bridge last?

Applications 14.

SCBA Cylinders Material Science MEEN 3311

May 26, 2014 EFFECT OF EXPLOSION CLADDING INDUCED HARDNESS ON SULFIDE STRESS CRACKING AND STRESS CORROSION CRACKING RESISTANCE OF INCONEL 625 Outline:

Standards, Best Practice Guidances and Thresholds

Andrea Hansen Jessi Meyer Matt Drew

MATERIALS TESTING. Why are metals tested ? Ensure quality Test properties Prevent failure in use Make informed choices in using materials Factor of Safety.

Presentation transcript:

Monitoring Steel Corrosion Challenges Direct inspection of the rebar or corrosion coupons, sensors is almost impossible as these are embedded in concrete. Retrofitting of corrosion probes/sensors is difficult. Concrete is actually a complex composite material, whose structure and properties tend to change with time. It does not "behave" like simple aqueous corrosion systems. Cracks in the concrete may represent a major factor in the severity of corrosion damage. Chloride induced rebar corrosion tends to be of the localized variety. Corrosion damage is typically manifested over many years of exposure.

Corrosion Monitoring Methods ER probes Extracted core samples Chloride concentration profiles or carbonation depths Soundness Permeability of concrete Visual inspection.

Maximum Load Monitor The TRIP steel sensor unit (in foreground) is attached to a bridge, and the maximum strain experienced by the bridge is permanently recorded by a change in the magnetic character of the steel. The sensor is read by the portable instrumentation unit shown in the background. TRIP steel is a special steel with a special chemical formulation, and it undergoes a permanent change in crystal structure in proportion to peak strain. It changes from a non-magnetic to a magnetic steel. The change can be easily measured.