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(Image: Bursting head with a directional guide) Pipe bursting procedure: Installation of the new pipeline while considering permissible tensile forces and bending radii. There must be an overlap between the external diameter of the expander head and that of the new pipeline in order to reduce the frictional forces during the pulling through procedure. In other words, the expander head will have a larger diameter than the new pipe that will be pulled … |
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(Image: Realisation of pipe bursting from the insertion manhole to the reception manhole) Manhole to manhole: Utilization of segmental pipes and bursting equipment suited to the size of the manhole structure. (Image: Realisation of pipe bursting from the insertion manhole to the reception pit) Manhole to pit: Utilization of segmental pipes and bursting equipment suited to the size of the manhole structure. Installation of the pulling equipment in the … |
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(Image: Realisation of pipe bursting from the insertion pit to the reception manhole) Insertion pit to manhole: Installation of the pulling equipment in the manhole or above it. Either the segmental or the continuous pipeline, together with the bursting unit, are introduced through the insertion pit. The size of the bursting unit is accordingly dimensioned as to allow for its removal from the target manhole. (Image: Realisation of pipe bursting from … |
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(Image: Connection of the new pipeline to the manhole) Connection of the new pipeline to the manhole: The connection between the new pipeline and the manhole structure must be properly sealed so that water cannot infiltrate the surrounding soil. A leak-tight joint must be placed between the manhole wall and the new pipe. The manhole channel and benching must be fitted to the new pipeline. (Image: Re-connection of a lateral to the new pipeline with the … |
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May 13, 2020 (Image: Gravity pipeline) The following materials are commonly used in the manufacturing of gravity, protection and product, pipes. (Table: Commonly used types of new pipelines for the pipe bursting of gravity systems with reference to [DWAM143-15]) |
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May 13, 2020 Other pipe types include: (Table: Other types of new pipelines qualified for pipe bursting of gravity systems) |
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May 13, 2020 (Image: Gravity pipeline) If polyethylene pipes are to be used, only PE 100 or PE-Xa pipes should be considered.
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May 13, 2020 (Image: Rohricon) When using PE pipes for gas and water supply lines, the SDR series listed in the tables below apply. (Table: SDR-series for pipe bursting - Water supply pipelines) (Table: SDR-series for pipe bursting - Gas supply pipelines) |
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May 13, 2020 (Image: Rohricon) The following table presents external protection requirements for steel and cast iron pipes.
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(Image: Qualitative description of the pneumatic bursting process) (Image: Model of a cylindrical cavity expansion in ideal elasto-plastic material with reference to [Zimme88] [Image: S&P GmbH]) The first phase of the so-called Secondary Condition I involves the bursting of the old sewer and the radial displacement of the pipe fragments in the surrounding soil. Subsequently, the soil settles into the overcut ( i.e., the difference in the cross section) … |
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(Image: Groove and notch formation caused by pipe breakage fragments) The destruction of the old pipe wall from the inside and the displacement of its fragments into the surrounding soil can lead to damages to the new product pipeline. The service life of new product pipes installed using the pipe bursting method is greatly reduced by:
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Grooves and notches can occur in all pipe materials. Grooves of up to 10 % of the wall thickness are permissible for pressure pipelines (according to DVGW1). Plastic pipes are especially prone to grooving because of their material properties. (Table: Characteristics of the E-modulus (short term and long term) for various materials) 1The Deutscher Verein des Gas- und Wasserfaches (DVGW) is the German association for gas and water with headquarters in … |
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The displacement of the old pipe fragments leads to the creation of point loads on the new pipeline which can cause peak stresses and consequently can result in cracks in the pipe wall. Therefore, plastic pipes should be highly resistant to stress cracking. Information on the slow crack growth of a pipe material is provided through the Notch or Full Notch Creep Test (FNCT). The point load test in combination with a creep rupture test is another method. |
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May 13, 2020 (Image: Attention!) Peak stresses due to point or line loads occur especially with large pipe fragments. The first theoretical investigations showed stress differences in the pipe of up to 400 % for differently shaped fragments with the same assumed soil stresses [Naneg88]. |
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May 13, 2020 The Notch-Test is a modified creep rupture internal pressure test in which the failure points are defined as four evenly distributed notches about the circumference (apex angle 60°, the notch depth equals to 20 % of the wall thickness) [ISO 13479] The test is carried out with a constant hydrostatic internal pressure in an 175 °F (80 °C) water bath until fracture occurs. (Image: Standstill periods for the Notch-test with reference to [Jürge05] [Image: … |
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May 13, 2020 With the Full-Notch-Creep-Test (FNCT) test, sharp-edged circumferential notches are cut around small test rods, which are loaded to failure under a constant tensile stress of 4 N/mm2 in a 175 °F (80 °C) water bath. (Image: Full-Notch-Creep-Test) |
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May 13, 2020 (Image: Point load test with reference to [FI-Hesse] [Image: S&P GmbH]) The point load test for pipes installed on sand bedding using the trenchless method involves applying an external point load to the pipe. The 0.4 in-diameter (10 mm) indenter pin is pressed into the pipe wall up to a defined depth (depression = 0.06 · De) at room temperature. The test piece is then subjected to a creep rupture test. |
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For pipes installed using the bursting method, the following two factors must be considered in the static calculations:
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(Image: Qualitative description of the pneumatic bursting process) The static calculations of lateral loads to the pipe axis are to be carried out according to the manufacturer's specifications. In a more precise static calculation according to the finite element method (FEM), substantially lower results are usually obtained as the bursting head causes a circular compaction and thus an "improvement" of the soil. This reduces the loads on the pipe. … |
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