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| | | 8 TE Series - Guided sliding | | |
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| | | Position of the guide: Small TE bearings (up to type 4) are fitted with an external guide for static reasons. Medium TE bearings (type 5 to 8) are fitted with an external or central guide depending on the size of the horizontal force relative to the vertical force. Large TE bearings (starting from type 9) are usually fitted with a central guide. | | |
| | | Function TE bearings allow movement in one direction and can accommodate horizontal forces perpendicular to this direction. TE bearings can be fitted with either one central guide (indicated by "i" in bearing type) or two external guides (indicated by "a"). Movement perpendicular to the guides is theoretically zero. In practice, there is up to 2 mm clearance. A DUB / stainless steel sliding system ensures smooth sliding in the guide. | | |
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| | | Load combination All standard bearings are designed so that they can accommodate maximum horizontal and vertical forces simultaneously. Maximum allowed horizontal forces are based on a concurrent minimum vertical load of 0.4 times the maximum load. The following table indicates these loads. | | |
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| | | Concrete stress Concrete stress is calculated according to European Standard EC 2 (partial area stress). Structural requirements are normally satisfied when concrete of grade C30/37 or greater is used and the spread area is about 1.6 times the pot diameter at the column and superstructure. | | |
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| | | | | | | | | | | | | | | Type & size | Bearing with anchor bolts | Bearing with anchor plates | | | | Vertical | Horizontal | Vertical | Horizontal | | | | Loads [kN] | Loads [kN] | Loads [kN] | Loads [kN] | | | | N | NRdmin | | N | NRdmin | | | | | TE 1a | 620 | 356 | 192 | 620 | 356 | 192 | | | | TE 2a | 1'486 | 488 | 329 | 1'486 | 488 | 329 | | | | TE 3a | 2'772 | 887 | 542 | 2'772 | 881 | 542 | | | | TE 4a | 4'395 | 1'425 | 897 | 4'395 | 1'034 | 897 | | | | TE 5a | 6388 | 1792 | 1071 | 6388 | 1341 | 1071 | | | | TE 6a | 8647 | 2166 | 1248 | 8647 | 1714 | 1248 | | | | TE 7a | 11'207 | 2536 | 1422 | 11 '207 | 2083 | 1422 | | | | TE 8a | 14143 | 2695 | 1599 | 14143 | 2458 | 1599 | | | | TE 5i | 4'780 | 1'785 | 1 '071 | 4'780 | 1'425 | 1'071 | | | | TE 6i | 7'011 | 2'158 | 1'248 | 7'011 | 1'708 | 1'248 | | | | TE 7i | 9'627 | 2'527 | 1'422 | 9'627 | 2'076 | 1'422 | | | | TE 8i | 12'678 | 2'687 | 1'599 | 12'678 | 2'451 | 1'599 | | | | TE 9i | 16'128 | 3'062 | 1'775 | 16'128 | 2'825 | 1'775 | | | | TE 10i | 19'917 | 3'435 | 1'950 | 19'917 | 3'199 | 1'950 | | | | TE 11i | 24'169 | 3'812 | 2'126 | 24'169 | 3'575 | 2'126 | | | | TE 12i | 28'820 | 4'192 | 2'303 | 28'820 | 3'954 | 2'303 | | | | TE 13i | 33'771 | 4'566 | 2'477 | 33'771 | 4'335 | 2'477 | | | | TE 14i | 38'782 | 4'947 | 2'654 | 38'782 | 4'708 | 2'654 | | | | TE 15i | 44'098 | 5'329 | 2'831 | 44'098 | 5'090 | 2'831 | | | | TE 16i | 49'671 | 7'266 | 3'757 | 49'671 | 7'028 | 3'757 | | | | TE 17i | 55'665 | 7'741 | 3'978 | 55'665 | 7'504 | 3'978 | | | | TE 18i | 62'000 | 8'218 | 4'199 | 62'000 | 7'979 | 4'199 | | | | TE 19i | 68'577 | 8'687 | 4'416 | 68'577 | 8'676 | 4'416 | | | | TE 20i | 75'590 | 9'164 | 4'637 | 75'590 | 8'925 | 4'637 | | | | | | | | | | | | | | |
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| | | VxyRdmax : Maximum bearing capacity of the bearing under shear force a: External guides NRd,max Maximum bearing capacity of the bearing under compressive force i: Central (or internal) NRd,min: : Minimum bearing capacity of the bearing under compressive force with a simultaneous shear force VxyRd] max guides | | |
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