DYWIDAG Removable Anchor Systems, Filesize
Transcription
DYWIDAG Removable Anchor Systems, Filesize
DYWIDAG Removable Anchor Systems We do not only talk about service – we offer it! As a service provider DSI offers professional support by experts and the training of installation Personnel on site. Our goal is to fulfill your expectations day by day. 2 Contents Introduction������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 4 Main Applications��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������� 4 General Concept���������������������������������������������������������������������������������������������������������������������������������������������������������������������������������� 4 Tension Type Anchor������������������������������������������������������������������������������������������������������������������������������������������������������������������������ 4 Compression Type Anchor��������������������������������������������������������������������������������������������������������������������������������������������������������������� 5 DYWIDAG Removable Strand Anchors������������������������������������������������������������������������������������������������������������������������������������������������ 6 Partially Removable Strand Anchor – IHM (Inductive Heat Method)������������������������������������������������������������������������������������������������ 6 Partially Removable Strand Anchor – MPM (Mechanically Processed Method)������������������������������������������������������������������������������ 8 Removable Strand Anchor – DYWIDAG QuickEx®������������������������������������������������������������������������������������������������������������������������� 10 DYWIDAG Removable Threadbar Anchors���������������������������������������������������������������������������������������������������������������������������������������� 12 Threadbar Anchor with Removable Free Length���������������������������������������������������������������������������������������������������������������������������� 12 Threadbar Anchor with Completely Removable Tendon���������������������������������������������������������������������������������������������������������������� 13 References – DYWIDAG Removable Strand Anchors������������������������������������������������������������������������������������������������������������������������ 14 References – DYWIDAG Removable Threadbar Anchors������������������������������������������������������������������������������������������������������������������ 15 DSI – Your independent System Supplier and competent Partner for Civil Engineering. 3 Introduction Numerous projects require anchors to be removable after use to ease future excavation and drilling works in these areas. Strand or bar anchors are fabricated from a very high steel grade. Anchors left in the ground after use can cause difficulties in future drilling and excavating procedures since most drilling/excavating equipment is not equipped to cut/bore through prestressed steel. In an increasing number of geotechnical projects, the steel tendon needs to be removed after use. In some areas, only the free length has to be removed, whereas in other areas, the removal of the complete steel tendon is required. Main Applications ■■ Excavations ■■ Stabilization of Construction Stages ■■ Temporary Tiebacks ■■ Urban Construction General Concept From a technical point of view DYWIDAG Anchors can be divided into tension type and compression type anchors. Tension Type Anchor A typical tension type anchor can be divided into two main areas, the anchor free length and the anchor bond length. Within the anchor bond length the strand/bar is bare and surrounded by grout. Within the anchor free length the anchor is unbonded. Having an anchor free length is a basic need when active stressing of an anchor is required. When stressing the anchor the forces within the strand/bar are constant until reaching the transition area between free- and bond length. Within the bond length the forces are transferred step by step to the surrounding grout matrix. The grout matrix typically is tension loaded which leads to radial cracks. From the grout matrix the stressing loads are transferred to the surrounding soil body. The picture on the right shows a typical bond stress distribution along the anchor bond length. In general, the bond behaviour between grout matrix and soil body is the governing criteria 4 Bo nd Unbonded Tendon An ch Fre eS or Fre eL tee lL en en gth Str es s Bare Tendon gth Grout An ch to derive the necessary anchor bond length. Soil bond values can be derived or Bo nd Le ng th through standardized testing procedures like investigation and/or suitability tests. General Concept of DYWIDAG Anchors Compression Type Anchor A compression type anchor consists of an unbonded strand/bar which transfers the applied loads from the stressing jack directly to a structural element at the distal end of the anchor. From there, the stressing loads are transferred via compression bodies into the grout matrix. In this case the grout matrix is compression loaded. From the grout matrix the loads are transferred into the soil body. As it can be seen in the drawing on the right, the bond behaviour between grout matrix and soil body is the governing criteria to derive the anchor bond length. Due to the fact that the grout matrix is compression loaded, the compression body length is usually shorter than the anchor bond length. The grout area in front of the compression bodies acts hereby like a compressive grout strut which is needed to transfer the stressing loads into the surrounding soil body. The anchor bond length which depends on soil bond values can be derived through standardized testing procedures like investigation and/or suitability tests. Bo nd Str es Unbonded Tendon An ch or Fre eL s en gth Grout Fre eS tee lL en An gth ch or Bo nd Le CB ng th L CBL: Compression Body Length Co mp * res sio nB od yL en gth 5 DYWIDAG Removable Strand Anchors Partially Removable Strand Anchor – IHM (Inductive Heat Method) PE Tube, Protected Strand Overlap Anchor Head Unbonded Strand Predetermined Breaking Point Bare Strand Grout Body Spacer Anchor Free Le ngth Anchor Bond L ength Technical Data DYWIDAG Prestressing Steel, Inductive Heat Method Ø 15.3mm / 0.6" [140mm²] No. of Strands 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 6 Y 1770 Standard Y 1860 High Grade Cross Sectional Area Ultimate Load Design Resistance A Fpk Rid = Fpk/1.3 60% Fpk Fpk Rid = Fpk/1.3 60% Fpk [mm²] [kN] [kN] [kN] [kN] [kN] [kN] [kg/m] 140 280 420 560 700 840 980 1,120 1,260 1,400 1,540 1,680 1,820 1,960 2,100 2,240 2,380 2,520 2,660 2,800 2,940 3,080 190 380 570 760 950 1,140 1,330 1,520 1,710 1,900 2,090 2,280 2,470 2,660 2,850 3,040 3,230 3,420 3,610 3,800 3,990 4,180 146 292 438 585 731 877 1,023 1,169 1,315 1,462 1,608 1,754 1,900 2,046 2,192 2,338 2,485 2,631 2,777 2,923 3,069 3,215 114 228 342 456 570 684 798 912 1,026 1,140 1,254 1,368 1,482 1,596 1,710 1,824 1,938 2,052 2,166 2,280 2,394 2,508 201 402 603 804 1,005 1,206 1,407 1,608 1,809 2,010 2,211 2,412 2,613 2,814 3,015 3,216 3,417 3,618 3,819 4,020 4,221 4,422 155 309 464 618 773 928 1,082 1,237 1,392 1,546 1,701 1,855 2,010 2,165 2,319 2,474 2,628 2,783 2,938 3,092 3,247 3,402 121 241 362 482 603 724 844 965 1,085 1,206 1,327 1,447 1,568 1,688 1,809 1,930 2,050 2,171 2,291 2,412 2,533 2,653 1.09 2.19 3.28 4.37 5.47 6.56 7.65 8.74 9.84 10.93 12.02 13.12 14.21 15.30 16.40 17.49 18.58 19.67 20.77 21.86 22.95 24.05 max. Ultimate Load Lockoff Load Design Resistance Weight max. Lockoff Load DYWIDAG Removable Strand Anchors Partially Removable Strand Anchor – IHM (Inductive Heat Method) Key Features ■■ Tension type anchor with removable free length ■■ Only bonded strand length remains in the soil ■■ Predetermined breaking points at each strand in the transition from bonded to free length ■■ The predetermined breaking points achieved by an innovative and patented inductive heat procedure ■■ The anchor can be removed by stressing until strand rupture occurs at the predetermined breaking point ■■ Slender system – high forces despite small boreholes and simple handling ■■ High quality control in the production line ensures high reliability and precision in the removal process Technical Data DYWIDAG Prestressing Steel, Inductive Heat Method Ø 15.7mm / 0.62" [150mm²] No. of Strands 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Y 1770 Standard Y 1860 High Grade Cross Sectional Area Ultimate Load Design Resistance A Fpk Rid = Fpk/1.3 60% Fpk Fpk Rid = Fpk/1.3 60% Fpk [mm²] [kN] [kN] [kN] [kN] [kN] [kN] [kg/m] 150 300 450 600 750 900 1,050 1,200 1,350 1,500 1,650 1,800 1,950 2,100 2,250 2,400 2,550 2,700 2,850 3,000 3,150 3,300 204 408 612 816 1,020 1,224 1,428 1,632 1,836 2,040 2,244 2,448 2,652 2,856 3,060 3,264 3,468 3,672 3,876 4,080 4,284 4,488 157 314 471 628 785 942 1,098 1,255 1,412 1,569 1,726 1,883 2,040 2,197 2,354 2,511 2,668 2,825 2,982 3,138 3,295 3,452 122 245 367 490 612 734 857 979 1,102 1,224 1,346 1,469 1,591 1,714 1,836 1,958 2,081 2,203 2,326 2,448 2,570 2,693 215 430 645 860 1,075 1,290 1,505 1,720 1,935 2,150 2,365 2,580 2,795 3,010 3,225 3,440 3,655 3,870 4,085 4,300 4,515 4,730 165 331 496 662 827 992 1,158 1,323 1,488 1,654 1,819 1,985 2,150 2,315 2,481 2,646 2,812 2,977 3,142 3,308 3,473 3,638 129 258 387 516 645 774 903 1,032 1,161 1,290 1,419 1,548 1,677 1,806 1,935 2,064 2,193 2,322 2,451 2,580 2,709 2,838 1.17 2.34 3.52 4.69 5.86 7.03 8.20 9.38 10.55 11.72 12.89 14.06 15.24 16.41 17.58 18.75 19.92 21.10 22.27 23.44 24.61 25.78 max. Ultimate Load Lockoff Load Design Resistance Weight max. Lockoff Load 7 DYWIDAG Removable Strand Anchors Partially Removable Strand Anchor – MPM (Mechanically Processed Method) PE Tube, Protected Strand Overlap Anchor Head Unbonded Strand Predetermined Breaking Point Bare Strand Grout Body Spacer Anchor Free Le ngth Anchor Bond L ength Technical Data DYWIDAG Prestressing, Mechanically Processed Method Ø 15.3mm / 0.6" [140mm²] No. of Strands 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 8 Y 1770 Standard Cross Sectional Area Ultimate Load Yield Load A Fpk Fp0.1k [mm²] [kN] 140 280 420 560 700 840 980 1,120 1,260 1,400 1,540 1,680 1,820 1,960 2,100 2,240 2,380 2,520 2,660 2,800 2,940 3,080 177 354 531 708 885 1,062 1,239 1,416 1,593 1,770 1,947 2,124 2,301 2,478 2,655 2,832 3,009 3,186 3,363 3,540 3,717 3,894 156 312 468 624 780 936 1,092 1,248 1,404 1,560 1,716 1,872 2,028 2,184 2,340 2,496 2,652 2,808 2,964 3,120 3,276 3,432 Design Resistance Rid = Fp0.1k/1.15 [kN] 136 271 407 543 678 814 950 1,085 1,221 1,357 1,492 1,628 1,763 1,899 2,035 2,170 2,306 2,442 2,577 2,713 2,849 2,984 Y 1860 High Grade max. Lockoff Load 60% Fpk Ultimate Load Yield Load Fpk Fp0.1k [kN] [kN] [kN] Design Resistance Rid = Fp0.1k/1.15 [kN] 106 212 319 425 531 637 743 850 956 1,062 1,168 1,274 1,381 1,487 1,593 1,699 1,805 1,912 2,018 2,124 2,230 2,336 186 372 558 744 930 1,116 1,302 1,488 1,674 1,860 2,046 2,232 2,418 2,604 2,790 2,976 3,162 3,348 3,534 3,720 3,906 4,092 164 328 492 656 820 984 1,148 1,312 1,476 1,640 1,804 1,968 2,132 2,296 2,460 2,624 2,788 2,952 3,116 3,280 3,444 3,608 143 285 428 570 713 856 998 1,141 1,283 1,426 1,569 1,711 1,854 1,997 2,139 2,282 2,424 2,567 2,710 2,852 2,995 3,137 max. Lockoff Load 60% Fpk Weight [kN] [kg/m] 112 223 335 446 558 670 781 893 1,004 1,116 1,228 1,339 1,451 1,562 1,674 1,786 1,897 2,009 2,120 2,232 2,344 2,455 1.09 2.19 3.28 4.37 5.47 6.56 7.65 8.74 9.84 10.93 12.02 13.12 14.21 15.30 16.40 17.49 18.58 19.67 20.77 21.86 22.95 24.05 DYWIDAG Removable Strand Anchors Partially Removable Strand Anchor – MPM (Mechanicallly Processed Method) Key Features ■■ Tension type anchor with removable free length ■■ Only bond length remains in the soil ■■ Predetermined breaking point at each strand in the transition from bond to free length ■■ The predetermined breaking point is achieved by a mechanical process, which leads to a local reduction of the steel section area ■■ The anchor is removed by stressing until strand rupture occurs at the predetermined breaking point ■■ Slender system – high forces despite small boreholes and simple handling ■■ High quality control in the production line ensures high reliability and precision in the removal process Technical Data DYWIDAG Prestressing, Mechanically Processed Method Ø 15.7mm / 0.62" [150mm²] No. of Strands 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 Y 1770 Standard Cross Sectional Area Ultimate Load Yield Load A Fpk Fp0.1k [mm²] [kN] [kN] Design Resistance Rid = Fp0.1k/1.15 [kN] 150 300 450 600 750 900 1,050 1,200 1,350 1,500 1,650 1,800 1,950 2,100 2,250 2,400 2,550 2,700 2,850 3,000 3,150 3,300 190 379 569 758 948 1,137 1,327 1,516 1,706 1,895 2,085 2,274 2,464 2,653 2,843 3,032 3,222 3,411 3,601 3,790 3,980 4,169 167 334 501 668 835 1,002 1,169 1,336 1,503 1,670 1,837 2,004 2,171 2,338 2,505 2,672 2,839 3,006 3,173 3,340 3,507 3,674 145 290 436 581 726 871 1,017 1,162 1,307 1,452 1,597 1,743 1,888 2,033 2,178 2,323 2,469 2,614 2,759 2,904 3,050 3,195 Y 1860 High Grade max. Lockoff Load 60% Fpk Ultimate Load Yield Load Fpk Fp0.1k [kN] [kN] [kN] Design Resistance Rid = Fp0.1k/1.15 [kN] 114 227 341 455 569 682 796 910 1,024 1,137 1,251 1,365 1,478 1,592 1,706 1,819 1,933 2,047 2,161 2,274 2,388 2,502 199 399 598 797 996 1,196 1,395 1,594 1,794 1,993 2,192 2,391 2,591 2,790 2,989 3,189 3,388 3,587 3,786 3,986 4,185 4,384 176 351 527 703 879 1,054 1,230 1,406 1,581 1,757 1,933 2,108 2,284 2,460 2,636 2,811 2,987 3,163 3,338 3,514 3,690 3,865 153 305 458 611 764 917 1,069 1,222 1,375 1,528 1,681 1,833 1,986 2,139 2,292 2,445 2,597 2,750 2,903 3,056 3,208 3,361 max. Lockoff Load 60% Fpk Weight [kN] [kg/m] 119 239 359 478 598 718 837 957 1,076 1,196 1,315 1,435 1,554 1,674 1,794 1,913 2,033 2,152 2,272 2,391 2,511 2,631 1.17 2.34 3.52 4.69 5.86 7.03 8.20 9.38 10.55 11.72 12.89 14.06 15.24 16.41 17.58 18.75 19.92 21.10 22.27 23.44 24.61 25.78 9 DYWIDAG Removable Strand Anchors Removable Strand Anchor – DYWIDAG QuickEx® PE Tube, Protected Strand Overlap Anchor Head Single Sheathed Strands Fix Tape Compression Bodies Compre Anchor Total L e ngth ssion B Bond L ody Le ngth ength Compression Body PE Sheating Threaded and Extruded Grip Footbox Min. Outer Drilling Outer Diameter Minimum No. of Compression Bodies Compression Body Length 1) Casing Diameter Strands [mm] [mm] [mm] 2 3 4 5 6 7 600 800 800 800 800 1,000 102.5 113.0 137.0 133 139 168 1) Minimum compression body length for a load level equal to the maximum proof load level of 80%Fpk =223.2 [kN] per strand and assuming a minimum compressive grout strength of fc,cube > 30 N/mm² Technical Data DYWIDAG Prestressing Steel Ø 15.3mm / 0.6" [140mm²] No. of Strands 1 2 3 4 5 6 7 10 Y 1770 Standard Crosssectional area Ultimate Load Yield Load A Fpk Fp0.1k [mm²] [kN] [kN] Design Resistance Rid = Fp0.1k /1.15 [kN] 140 280 420 560 700 840 980 248 496 743 991 1,239 1,487 1,735 218 437 655 874 1,092 1,310 1,529 190 380 570 760 950 1,139 1,329 Y 1860 High Grade max. Lockoff Load 60% Fpk Ultimate Load Yield Load Fpk Fp0.1k [kN] [kN] [kN] Design Resistance Rid = Fp0.1k /1.15 [kN] 149 297 446 595 743 892 1,041 260 521 781 1,042 1,302 1,562 1,823 230 459 689 918 1,148 1,378 1,607 200 399 599 799 998 1,198 1,398 max. Lockoff Load 60% Fpk Weight [kN] [kg/m] 156 312 469 625 781 937 1,094 1.65 3.30 4.95 6.60 8.25 9.90 11.55 DYWIDAG Removable Strand Anchors Removable Strand Anchor – DYWIDAG QuickEx® Key Features ■■ Compression type anchor according to DIN 4125, EN1537 and DIN SPEC 18537 ■■ Strands are fully removable due to the PE tube cover along the full anchor length ■■ Patented anchorage system ensures easy and safe removal of the anchors ■■ Strands can be removed within a few minutes ■■ Only PE tubes, compression bodies and end anchorage remain in the ground, which do not disturb subsequent construction works (pile driving, excavation, TBM) ■■ Patented compression body design ensures load transfer from the strands to the grout body ■■ Removal is carried out by technicians using conventional tensioning equipment ■■ Strands are not greased → no grease pollution disturbs later removal process ■■ Removability can be tested directly before applying the final stressing load by twisting the strands ■■ Anchors are delivered coiled on pallets 2.After releasing the force to zero, start rotating strands to dissolve the extruded grips from the footbox 3.Remove strands manually ■■ Easy removal also in case of limited space conditions ■■ Simple handling on site Removal Principle 1.Extruded grip position during stressing and after applying the final lock-off load Technical Data DYWIDAG Prestressing Steel Ø 15.7mm / 0.62" [150mm²] No. of Strands 1 2 3 4 5 6 7 Y 1770 Standard Crosssectional area Ultimate Load Yield Load A Fpk Fp0.1k [mm²] [kN] [kN] Design Resistance Rid = Fp0.1k/1.15 [kN] 150 300 450 600 750 900 1,050 266 531 797 1,062 1,328 1,593 1,859 234 468 702 936 1,170 1,404 1,638 203 407 610 814 1,017 1,221 1,424 Y 1860 High Grade max. Lockoff Load 60% Fpk Ultimate Load Yield Load Fpk Fp0.1k [kN] [kN] [kN] Design Resistance Rid = Fp0.1k/1.15 [kN] 159 319 478 637 797 956 1,115 279 558 837 1,116 1,395 1,674 1,953 246 492 738 984 1,230 1,476 1,722 214 428 642 856 1,070 1,283 1,497 max. Lockoff Load 60% Fpk Weight [kN] [kg/m] 167 335 502 670 837 1,004 1,172 1.73 3.46 5.19 6.92 8.65 10.38 12.11 11 DYWIDAG Removable Threadbar Anchors Threadbar Anchor with Removable Free Length Tension type anchor with removable free length Only bonded bar length remains in the soil Easy and safe anchor removal: The steel tendon can be unscrewed from a special coupler in the transition from the bond length to the unbonded length Removability can be checked before stressing the anchor Slender system – high forces despite small boreholes Anchor Head Smooth Sheating Special Coupler for Removal DYWIDAG Prestressing Steel / GEWI® Threadbar Grout Body Anchor Spacer Free Le ngth Anchor Bond L ength Removal Principle Step 1 Step 2 Step 3 1.Destress the anchor 2.Rotate bar to disconnect the bar from the special coupler 3.Pull out the bar through the smooth sheating Technical Data Bar Anchor Specifications according to prEN 10080-4:2005-03 CrossUlitmate Yield load Bar Dia. sectional area Load A Fp0.1k Fpk Bar Anchor Specifications according to DIN EN 1992-1-1 EN 1537:2001 Design Resistance max. Lockoff Load Rid = Fp0.1k /1.15 max. Proof load Weight max. P0 = 60% Fpk max. P0 = 80% Fpk [mm] [mm²] [kN] [kN] [kN] [kN] [kN] [kg/m] 26.5 32 36 40 47 552 804 1,018 1,257 1,735 525 760 960 1,190 1,650 580 845 1,070 1,320 1,820 457 661 835 1,035 1,435 348 507 642 792 1,092 464 676 856 1,056 1,456 4.5 6.5 8.3 10.2 14.1 12 DYWIDAG Removable Threadbar Anchors Threadbar Anchor with Completely Removable Tendon ■■ Compression type anchor with completely removable steel tendon ■■ Easy and safe anchor removal: The steel tendon can be unscrewed from the end anchorage Anchor Head ■■ Only PE tubes, compression bodies and end anchorage remain in the ground; they do not disturb subsequent construction works (pile driving, excavation, TBM) DYWIDAG Prestressing Steel / GEWI® Threadbar Smooth Sheating ■■ Patented compression body design ensures load transfer into the grout matrix ■■ Removability can be checked before stressing the anchor Compression Bodies Spacer Grout Body Anchor End Anchorage Free Le ngth Compre Anchor ssion B ody Le Bond L ngth ength Removal Principle Step 1 Step 2 Step 3 1.Destress the anchor 2.Rotate bar to disconnect the bar from the special coupler 3.Pull out the bar through the smooth sheating Technical Data Bar Anchor Specifications according to prEN 10080-4:2005-03 CrossUlitmate Bar Dia. Yield load sectional area Load A Fp0.1k Fpk Bar Anchor Specifications according to DIN EN 1992-1-1 EN 1537:2001 Design Resistance max. Lockoff Load Rid = Fp0.1k/1.15 max. Proof load Weight max. P0 = 60% Fpk max. P0 = 80% Fpk [mm] [mm²] [kN] [kN] [kN] [kN] [kN] [kg/m] 26.5 32 36 40 47 552 804 1,018 1,257 1,735 525 760 960 1,190 1,650 580 845 1,070 1,320 1,820 457 661 835 1,035 1,435 348 507 642 792 1,092 464 676 856 1,056 1,456 4.5 6.5 8.3 10.2 14.1 Bar Diameter Compression Body Length Outer Diameter Compression Bodies [mm] [mm] [mm] 26.5 32 36 40 47 1,000 1,200 1,400 1,600 2,000 92 92 100 110 110 13 References – DYWIDAG Removable Strand Anchors Kronenbridge Freiburg, Germany General Contractor PST Spezialtiefbau Süd GmbH DSI Unit DYWIDAG-Systems International GmbH, BU Geotechnics, Germany DSI Services Production and Supply DSI Products 20 Temporary DYWIDAG QuickEx® Anchors with 4 Strands (0.6" St1570/1770), 21m long Schlossstrasse, Munich, Germany Owner Private., Germany +++ General Contractor PST Spezialtiefbau Süd GmbH, Germany DSI Unit DYWIDAG-Systems International GmbH, BU Geotechnics, Germany DSI Services Production, Supply and Technical Support DSI Products 14 temporary DYWIDAG Strand Anchors with Removable Free Length with 7 Strands, Type 0.6" St1570/1770 14 References – DYWIDAG Removable Threadbar Anchors The Future of Education: A new Campus for UAS Duesseldorf, Germany Owner Building and infrastructure organization of North Rhine-Westphalia, Germany +++ General Contractor Hochtief Solutions AG, Germany +++ Contractor Pohl Erdbewegungen GmbH, Germany +++ Subcontractor Heinsberger Grundbau GmbH, Germany +++ Engineering Joint Venture Campus Derendorf, consisting of Nickl & Partner Architekten AG, Ebert-Ingenieure GmbH and Pfefferkorn Ingenieure, Verband Beratende Bauingenieure VBI, all of them Germany DSI Unit DYWIDAG-Systems International GmbH, BU Geotechnics, Germany DSI Services Production, supply DSI Products 163 completely removable St950/1050 WR DYWIDAG Ground Anchors; 460m of Type SUSPA Systems Compact Temporary Strand Anchors Industriestrasse Vaihingen, Stuttgart, Germany Contractor G&R Spezialtiefbau GmbH, Germany DSI Unit DYWIDAG-Systems International GmbH, BU Geotechnics, Germany DSI Services Production, supply, engineering services DSI Products 17 Temporary Bar Anchors with Completely Removable Tendon 15 Belgium DYWIDAG-Systems International N.V. Philipssite 5, bus 15 Ubicenter 3001 Leuven Belgium Phone +32-16-60 77 60 E-mail info.be@dywidag-systems.com www.dywidag-systems.com/emea France DSI France SAS Rue de la Craz Z.I. des Chartinières 01120 Dagneux France Phone +33-4-78 79 27 82 E-mail dsi.france@dywidag-systems.fr www.dywidag-systems.fr Germany DYWIDAG-Systems International GmbH Germanenstrasse 8 86343 Koenigsbrunn Germany Phone +49-8231-96 07 0 E-mail geotechnik@dywidag-systems.com www.dywidag-systems.de Italy DYWIT S.P.A. Viale Europa 72 Strada A 7/9 20090 Cusago (Milano) Italy Phone +39-02-901 65 71 E-mail info@dywit.it www.dywit.it Netherlands DYWIDAG-Systems International B.V. Veilingweg 2 5301 KM Zaltbommel Netherlands Phone +31-418-57 89 22 E-mail email.nl@dywidag-systems.com www.dywidag-systems.com/emea Poland DYWIDAG-Systems International Sp. z o.o. ul. Bojowników o Wolnos´c´ i Demokracje˛ 38/121 41-506 Chorzów Poland Phone +48-32-241 09 98 E-mail dsi-polska@dywidag-systems.com www.dywidag-systems.pl Please Note: This brochure serves basic information purposes only. Technical data and information provided herein shall be considered non-binding and may be subject to change without notice. We do not assume any liability for losses or damages attributed to the use of this technical data and any improper use of our products. Should you require further information on particular products, please do not hesitate to contact us. Portugal DYWIDAG SISTEMAS CONSTRUCTIVOS, SA Rua D. Manuel, n.º 24 A Quinta da Parreirinha 2695-003 Bobadela (Loures) Portugal Phone +351-21-892 28 90 E-mail dywidag@dywidag-sistemas.com www.dywidag-sistemas.com Spain DYWIDAG SISTEMAS CONSTRUCTIVOS, S.A. Avd/de la Industria, 4 Pol. Ind. la Cantuena 28947 Fuenlabrada (Madrid) Spain Phone +34-91-642 20 72 E-mail dywidag@dywidag-sistemas.com www.dywidag-sistemas.com United Kingdom DYWIDAG-Systems International Ltd. Northfield Road Southam, Warwickshire, CV47 0FG Great Britain Phone +44-1926-81 39 80 E-mail sales@dywidag.co.uk www.dywidag.co.uk China DYWIDAG-Systems International Far East Ltd. 9/F, Prosperity Millennia Plaza, Unit 905-907 663 King’s Road, North Point Hong Kong Phone +852-28-33 19 13 E-mail dsihk@dsife.com.hk www.dywidag-systems.com/emea India DSI-BRIDGECON Pvt. Ltd. 265, Okhla Industrial Estate, Phase 3 110020 New Delhi India Phone +974-44-58 04 11 E-mail info@dsi-bridgecon.com www.dsi-bridgecon.com Korea DYWIDAG-Systems Korea Co. Ltd. 5th Floor, Spring Morning B/D 8, Mabang-ro, Seocho-gu Seoul 137-894 Korea Phone +82-2-34 72 01 41 E-mail dywidagkor@gmail.com www.dsikorea.co.kr Qatar DYWIDAG-Systems Middle East W.L.L. Al Shoumoukh Towers 11th Floor Street 231 Building no 58 Area no 23, Suhaim Bin Hamed Doha P.O.Box 24893 Doha / Qatar Phone +974-44-58 04 11 E-mail info.qatar@dsi-middleeast.com www.dsi-middleeast.com Saudi Arabia DYWIDAG-Systems Int. Saudi Arabia, LLC P.O. Box 64014 Riyadh-Olaya 11536 Saudi Arabia Phone +966-11-455 3123 E-mail dsihv@dywidag-systems.com www.dywidag-systems.com/emea ARGENTINA AUSTRALIA AUSTRIA BELGIUM BOSNIA AND HERZEGOVINA BRAZIL CANADA CHILE CHINA COLOMBIA C O S TA R I C A C R O AT I A CZECH REPUBLIC DENMARK EGYPT ESTONIA FINLAND FRANCE GERMANY GREECE G U AT E M A L A HONDURAS HONG KONG INDIA INDONESIA IRAN I T A LY J A PA N KOREA LEBANON LUXEMBOURG M A L AY S I A MEXICO NETHERLANDS NIGERIA N O R W AY OMAN PA N A M A PA R A G U AY PERU POLAND PORTUGAL Q ATA R RUSSIA SAUDI ARABIA SINGAPORE SOUTH AFRICA S PA I N SWEDEN SWITZERLAND TA I W A N THAILAND TURKEY U N I T E D A R A B E M I R AT E S UNITED KINGDOM U R U G U AY USA VENEZUELA www.dywidag-systems.com/emea 04429-1/04.16-1.000 sc di Austria DYWIDAG-Systems International GmbH Alfred-Wagner-Strasse 1 4061 Pasching/Linz Austria Phone +43-7229-610 49 0 E-mail office@dywidag-systems.at www.dywidag-systems.at