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Flexture testing
Flexture testing












flexture testing
  1. FLEXTURE TESTING UPGRADE
  2. FLEXTURE TESTING PRO
  3. FLEXTURE TESTING SOFTWARE
  4. FLEXTURE TESTING FREE

  • Free of charge Utest software(USOFT-4830.FPR) for the tests.
  • Stand-Alone control or computer control.
  • Closed loop control with automatic test procedure.
  • Supplied with factory calibration certificate for load measurement.
  • Class 1 (EN ISO) and Class A (ASTM) starting from with the 1 %.
  • Pace rate control from 50 N/sec (flexture) to 2,4 kN/sec (compression).
  • FLEXTURE TESTING PRO

    The UTEST automatic cement compression and flexure testing machines consist of very rigid two column single or double chamber frames ( see table) and UTC-4830FPR automatic hydraulic power pack with U-Touch PRO Control Unit Automatically saves the test parameters and test results.

    flexture testing

    The machine automatically starts the rapid approach switches the test speed after 1% of the load capacity of the machine and stops once the specimen failure.Pressing the START button on the control unit.Choosing the compression or flexure frame by using the changeover valve.Setting test parameters, including pace rate (only required when the specimen type is changed.).Once the machine has been switched on and the specimen is positioned and centered by the help of centering apparatus. The UTEST automatic cement compression and flexure testing machines allow less experienced operators to perform the tests.

    FLEXTURE TESTING SOFTWARE

    (The UTEST Software for Automatic Compression / Flexure Testing Machines with UTC-4830FPR Hydraulic Power Pack)Ĭompression and flexture jigs, distance pieces, and also removable transparent front-rear safety doors (should be factory installed) should be ordered separately. can be seen in detail at the USOFT-4830.FPR pages. The advantages of performing tests on computer with using UTEST Software, such as reporting, graphical output, etc. Tests can be performed by either on UTC-4930.FPR U-Touch PRO Control Unit or on a computer with using USOFT-4830.FPR Software which is provided free of charge with the machines.

    flexture testing

    These machines also meet the requirements of CE norms for safety and health of the operator.ĮN 196-1, 459-2, 1015-11, 13454-2 ASTM C109, C348, C349 BS 4550-3.4

    FLEXTURE TESTING UPGRADE

    These compression and flexure testers are the results of continuous applications and research studies to upgrade the machines with the latest technologies and conform the current standards EN 196-1, 459-2, 1015-11, 13454- 2 ASTM C 109, C348, C349 in terms of its technical properties taking into account client requirements by using suitable accessories. The UTEST Automatic range of single testing chamber and double testing chamber compression and flexure testing machines have been designed for reliable and consistent testing of mortar samples.

  • Electromechanical Universal Test Machine.
  • Automatic Tension & Compression Testing Machine.
  • The arrangement of the testing apparatus (three-point or four-point bend, distance between supports, etc.) also influences the calculation of the beam mechanics. For example, rectangular specimens are treated differently than cylindrical ones. The mechanics that dictate bending tests rely heavily upon the geometry of the specimen. In the case of bones, the complex structure and small defects within the specimen serve to concentrate stresses locally, effectively causing localized weaknesses and lower flexural strength values. The flexural strength would be the same as thetensile strength if the material were homogeneous. Most materials fail under tensile stress before they fail under compressive stress, so the maximum tensile stress value that can be sustained before the specimen fails is its flexural strength. At the convex face of the specimen (point B), the stress will be at its maximum tensile value. At the edge of the concave face of the specimen (point A), the stress will be at its maximum compressive value. When a specimen is bent, it experiences a range of stresses across its depth. Three and four point bend tests are commonly used to determine the flexural strength of a specimen. The flexural strength represents the highest stress experienced within the material at its moment of rupture.
  • Summary Statement Driven Funding Requestįlexural strength, or bend strength, is defined as a material's ability to resist deformation under load.
  • New Funding Program-Non-PCMD Core Usage Support.













  • Flexture testing