Rebar Strainmeters and “Sister Bars”

Rebar Strainmeters and “Sister Bars”

Model 4911, 4911A Rebar Strainmeters and “Sister Bars” Applications Rebar Strainmeters are com- monly used for measuring strains in… Concrete piles & caissons Slurry walls Cast-in-place concrete piles Concrete foundation slabs and footings Osterberg pile tests All concrete structures Model 4911A Rebar Strainmeter (front) and the Model 4911 “Sister Bar” (rear). Operating Principle Advantages and Limitations Rebar Strainmeters and “Sister Bars” are designed to The main advantage of the Rebar Strainmeters and “Sister be embedded in concrete for the purpose of measur- Bars” lies in their ruggedness. They are fully waterproof ing concrete strains due to imposed loads. The Rebar and virtually indestructible so that, if the cable is ade- Strainmeter is designed to be welded into, and become quately protected, they are safe from damage during the an integral part of, the existing rebar cage, while the concrete placement. “Sister Bar” is installed by tying it alongside an existing Each Rebar Strainmeter and “Sister Bar” is individu- length of rebar in the rebar cage. ally calibrated and tested for weld strength. The Rebar The rebar extensions on either side of the central strain- Strainmeter requires the services of an experienced gauged area are long enough to ensure adequate con- welder who can guarantee full-strength welds, whereas tact with the surrounding concrete so that the measured the “Sister Bar” is very easy to install. strains inside the steel are equal to the strains in the Close-up of Model 4911 shown as in- The single vibrating wire strain sensor, located along the surrounding concrete. stalled in concrete pile reinforcing cage. axis of the strainmeter, is not affected by the bending In use, Rebar Strainmeters and “Sister Bars” are usu- of the strainmeter itself. It also has the advantage of all ally installed in pairs on either side of the neutral axis of vibrating wire sensors, namely: long-term stability, it can the structural member being investigated. This is done be used with long cables and it’s relatively unaffected by so that bending moments may be analyzed in addition to moisture intrusion into the cables. axial loads. A built-in thermistor enables the measurement of temperatures and aids in the evaluation of thermally induced strains. 4911 Dial Indicator Rebar Thermistor (Encapsulated) Strain Gauge Instrument Cable Protective Epoxy Strain Meter Body Heat Shrink Electromagnetic Coil 914 mm (36 in) Rebar Cage 4911A Rebar Heat Shrink Strain Gauge Compression Fitting Instrument Cable 4911 Rebar Strain Meter Thermistor Electromagnetic Coil Strain Meter Body 1105 mm (43.5 in) Concrete Pile Illustration of the Model 4911 “Sister Bar” and Model 4911A Rebar Strainmeters and their various components. System Components Readouts and Cables A vibrating wire strain gauge sensor is fixed axially inside The 4911 Series Rebar Strainmeters are read using the a short, central length of round steel bar. This central sec- Model GK-404 or GK-405 Readouts. Alternatively, the LC-2 tion is de-bonded from the surrounding concrete by means Series or 8600 Series Dataloggers can be used. of a plastic coating, and is extended by welding a length The 4911 Series Rebar Strainmeters use the Model of rebar to each end. The Model 4911A Rebar Strainmeter 4911 Rebar 02-250V6 4 pair, 22 AWG cable. Strain Meter is available in various sizes to match the size of the rebar cage into which it is to be welded, whereas the Model Technical Specifications 4911 “Sister Bar” comes in one size only (#4 rebar, at 4911 4911A approximately 12.7 mm in diameter). Standard Range 3000 με 3000 με Resolution 0.4 με 0.4 με A thermistor to measure temperature changes can be Accuracy¹ ±0.25% F.S. ±0.25% F.S. included in the 4911 and 4911A sensors. Nonlinearity < 0.5% F.S. < 0.5% F.S. Temperature Range² –20°C to +80°C –20°C to +80°C Rebar Sizes #4 (Sister Bar) #6, 7, 8, 9, 10, 11, 14 Length 914 mm 1105 mm ¹Accuracy established under laboratory conditions. ²Other ranges available on request. Displacement Transducer Osterberg Cell Installation of the Model 4911 in an Osterberg Cell pile test. (For more information regarding Osterberg Cell pile testing, please contact Loadtest, Inc. — www.loadtest.com). www.geokon.com is an 48 Spencer Street e: [email protected] : Lebanon, NH 03766 • USA p: + 1 · 603 · 448 · 1562 registered company The ® logo and word mark are registered trademarks with the United States Patent and Trademark Office. | maintains an ongoing policy of design review ©geokon. All Rights Reserved. | Rev-F.7-4/5/2019 and reserves the right to amend products and specifications without notice. | All other trademarks are the property of their respective owners..

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