ũƮ భ Windsor Pin Test System

ũƮ భ Windsor Pin Test System
*Ÿ ׽Ʈ
*,
*5,300 PSI (36.9 MPa)
*ASTM C-803

Windsor Pin Test System
For Strength Testing of Concrete, Brick and Mortar
Features Special Chuck for Mortar Joints

 

Windsor Pin system

A unique instrument for measuring the strength of new or existing construction materials in situ utilizing the established

principle of resistance to penetration.

Measures the compressive strength of concrete, mortar and brick in-situ, quickly and accurately. A non-explosive instrument,

the Windsor Pin System uses a spring-loaded device to drive a steel pin into the concrete (or mortar). The depth of penetration

of the needle correlates to the compressive strength of the material under test.

A removable chuck and a small pin size facilitate the testing of mortar joints; this is the only system for testing the in-place strength

of brick mortar joints.

 

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  • Portable and completely self-contained.

  • Safe to use - non explosive.

  • Economical - steel pin can be reused.

  • Non destructive.

  • Removable chuck facilitates testing of mortar strength in masonry.

  • Conforms to ASTM C-803

  • Test new concrete products and structures for early strength.

  • Evaluate the in situ strength in existing structures, e.g., after suspected fire damage.

  • Test strength of block, brick, and mortar joints within an existing structure, e.g., load bearing walls.

  • Test polymer concrete and patching compound.

  • Quality control of precast elements such as block, brick slabs and pipe.





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The principle of the Windsor@ Pin system is that a spring drives a steel pin into the surface of the material.

Since the depth of penetration is inversely proportional to compressive strength, the device provides a fast and safe way of determining

the in situ strength of material. The spring is loaded by tightening the retraction nut until the trigger mechanism latch closes to hold the

spring in place. The stored potential energy is 91 lbs. in (108 NM). With the spring loaded it is compressed to a distance of 0.8 inches.

 

Thus once the trigger is pulled there is enough force to test compressive strength of concrete to a maximum of 5300 PSI (36.9 MPA).

The pin is made of a special high strength steel specifically designed for building material penetration and can be used about seven times.

The Windsor Pin System comes with a go/no go gauge to test the pin(s) after each use. If the length is reduced sufficiently and the pin goes

through the gauge, the pin(s) should be replaced. Not doing so will severely impact test results.

 

With the chuck on both the micrometer and the pin driver, flat surfaces can be easily and accurately measured. Simply make sure the

chuck rests against the surface and pull the trigger. After the pin has penetrated the surface, clean the hole with the blower provided

and measure depth of penetration. Compare this penetration depth to the previously prepared chart for the compressive strength of

your material. Strength charts for typical mortar and concrete are provided with the unit.

 

The recommended practice is to take seven readings and discarding the two readings farthest from the mean. By doing this, the possibilities

of accidently striking a flaw or near surface piece of hard aggregate, and using the resulting penetration to calculate strength; are sufficiently

reduced. By grinding the test surface flat before testing, a more consistent result can be produced.

With the chuck removed, the pin driver is capable of accurately testing mortar joints. By inserting the V-barrel into the mortar joint, the pin will

directly penetrate at the center of the joint. Then by following similar procedures as above, the compressive strength of the mortar joint can be

accurately and safely tested. A similar V-shape on the micrometer facilitates measurement.


 

 Calibration

The spring of this instrument has been selected for its ability to undergo many compression cycles with no loss of energy.

However, it is recommended that the instrument be sent back to James Instruments (or an authorized distributor) for cleaning,

recalibration, and replacement of the brass loading nut, at least once every year.


 

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 W-P-2000

 Windsor Pin System

 W-P-1040

 Box of 40 pins with gauge for Windsor Pin system

 Weight

 18 lbs.(8.1 Kg)

 Dimensions

 17 x 12 x 6 inches (43 x 30 x 15 cm)



 

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Windsor Pin SYSTEM OPERATING PRINCIPLE

A spring-loaded device drives a steel pin into the surface of concrete or mortar and the depth of penetration is measured.

Since the depth of penetration is inversely proportional to compressive strength, this system provides a fast and efficient way of determining

the in situ strength of material.

The spring is loaded by tightening the loading nut until the trigger mechanism latch closes to hold the spring in place.

The stored potential energy is 91 lbs. in (108 NM). With the spring loaded, it is compressed to a distance of 0.8 inches. Thus, once the trigger

is pulled there is enough force to test the compressive strength of concrete to a maximum of 5300 PSI (36.9 MPa).

The pin is made of a special high-strength steel specifically for building material penetration and can be used up to seven times.

The pin should be replaced if the length is reduced sufficiently enough for it to pass through a go/no-go gage.

 

PIN PENETRATION RESISTANCE TEST PROCEDURE

  • 1. Insert a new pin into the chuck.

  • 2. Tighten the loading nut until the trigger mechanism latch closes to hold the spring in place.

  • 3. It is very important to back off the loading nut completely to the top of the load screw before pulling trigger.

  •    Failure to do so will result in damage to the threads of both nut and spindle.

  • 4. Place the instrument on a smooth flat surface of the material to be tested (2-3 square inches).

  •     If necessary use a grindstone to prepare the surface.

  • 5. Place the instrument perpendicular to the test surface and pull the trigger. The instrument should be held firmly against the surface,

  •     particularly when testing vertical walls and ceilings.

  •     1. With the chuck removed, the V-shaped barrel can be inserted directly into the mortar joint â桰 ensuring pin penetration at its center.

  •  

  • 6. Remove the instrument, then using the rubber bulb-type blower, clean out the small hole made in the material surface.

  • 7. Place the micrometer over the hole, making sure that the reference surface of the micrometer is flat on the material

  •    (For measuring mortar joints, the micrometer utilizes a V-shaped barrel similar to the pin driver.)

  • 8. Insert micrometer probe to the bottom of the hole using the knurled thimble on the head of the micrometer.

  • 9. Read and note the micrometer reading. Remove chuck to expose V-Shaped barrel if measuring in a mortar joint.

  • 10, After each strike, check the steel pin in the go/no-go gauge provided - located in the plastic box containing 40 steel pins.

  •      If the pin can easily pass through the slot in the gauge, or it appears too blunt, it should be discarded and a new one selected.

  •      (Note: When checking the length of a used pin, make sure that it is parallel to the surface of the gauge.)

  • 11. Repeat the above procedure seven times and reject the two readings farthest from the mean.

  • 12. Average the five best remaining point readings and, using the charts provided, look up the corresponding compressive strength.

  •      If the pin is too blunt or too short, the strength of the material can be considerably overstated.

  •  


     

      Windsor Pin Concrete and Mortar Strength Table

    The strength of the concrete and mortar can be determined by reading the depth micrometer directly, and then using the

    strength table below. (Note: the micrometer provided does not read the actual depth of penetration;

    instead this value can be obtained by subtracting the micrometer reading from one inch – as seen in the far right column.

    The mm penetration can be seen in the center column.)