ETA-Danmark A/S Kollegievej 6 DK-2920 Charlottenlund Tel. +45 72 24 59 00 Fax +45 72 24 59 04 Internet www.etadanmark.dk Authorised and notified according to Article 10 of the Council Directive 89/106/EEC of 21 December 1988 on the approximation of laws, regulations and administrative provisions of Member States relating to construction products MEMBER OF EOTA European Technical Approval ETA-10/0413 This ETA replaces the previous ETA with the same number and validity from 2010-11-26 to 2015-11-16 Trade name: Pitzl GmbH & Co. KG post bases*) Holder of approval: Pitzl GmbH & Co. KG Siemensstraße 26 DE-84051 Altheim Tel.: +49 (0) 8703 9346-0 Telefax: +49 (0) 8703 9346-55 Internet: www.pitzl.de Generic type and use of construction product: Valid from: to: Manufacturing plant: Three-dimensional nailing plate (Post bases for the support of timber columns and posts as load-bearing elements and Connectors for posts and purlins as load-bearing elements ) 2013-05-09 2018-05-09 Pitzl GmbH & Co. KG Siemensstraße 26 DE-84051 Altheim This European Technical Approval contains: 67 pages including 2 annexes which form an integral part of the document *) See annex A for types covered by this ETA
Page 2 of 67 of European Technical Approval no. ETA-10/0413 I LEGAL BASIS AND GENERAL CONDITIONS 1 This European Technical Approval is issued by ETA-Danmark A/S in accordance with: - Council Directive 89/106/EEC of 21 December 1988 on the approximation of laws, regulations and administrative provisions of Member States relating to construction products 1), as amended by Council Directive 93/68/EEC of 22 July 1993 2). - Bekendtgørelse 559 af 27-06-1994 (afløser bekendtgørelse 480 af 25-06-1991) om ikrafttræden af EF direktiv af 21. december 1988 om indbyrdes tilnærmelse af medlemsstaternes love og administrative bestemmelser om byggevarer. 5 Reproduction of this European Technical Approval including transmission by electronic means shall be in full. However, partial reproduction can be made with the written consent of ETA-Danmark A/S. In this case partial reproduction has to be designated as such. Texts and drawings of advertising brochures shall not contradict or misuse the European Technical Approval. 6 This European Technical Approval is issued by ETA- Danmark A/S in English. This version corresponds fully to the version circulated within EOTA. Translations into other languages have to be designated as such. - Common Procedural Rules for Requesting, Preparing and the Granting of European Technical Approvals set out in the Annex to Commission Decision 94/23/EC 3). - EOTA Guideline ETAG 015 Three-dimensional nailing plates, September 2002 edition. 2 ETA-Danmark A/S is authorized to check whether the provisions of this European Technical Approval are met. Checking may take place in the manufacturing plant. Nevertheless, the responsibility for the conformity of the products to the European Technical Approval and for their fitness for the intended use remains with the holder of the European Technical Approval. 3 This European Technical Approval is not to be transferred to manufacturers or agents of manufacturers other than those indicated on page 1, or manufacturing plants other than those indicated on page 1 of this European Technical Approval. 4 This European Technical Approval may be withdrawn by ETA-Danmark A/S pursuant to Article 5(1) of Council Directive89/106/EEC. 1) Official Journal of the European Communities N o L40, 11 Feb 1989, p 12. 2) Official Journal of the European Communities N o L220, 30 Aug 1993, p 1. 3) Official Journal of the European Communities N o L 17, 20 Jan 1994, p 34.
Page 3 of 67 of European Technical Approval no. ETA-10/0413 II SPECIAL CONDITIONS OF THE EUROPEAN TECHNICAL APPROVAL 1 Definition of product and intended use Definition of the product The Pitzl post bases are made of 5.0 mm to 15.0 mm thick steel plates in combination with steel tubes or threaded rods. The post bases are produced of steel grade S235JR according to EN 10025-2:2005-04 with a minimum characteristic yield strength of R eh = 235 N/mm² and a minimum characteristic tensile strength of R m = 360 N/mm² or of steel grade 1.4301 according to EN 10088-3:2005-09 with a minimum characteristic yield strength of R p0,2 = 190 N/mm² and a minimum characteristic tensile strength of R m = 500 N/mm². The steel tubes are produced of steel grade P235 according to EN 10216-1:2004 or EN 10217-1:2005 with a minimum characteristic yield strength of R eh = 235 N/mm² and a minimum characteristic tensile strength of R m = 360 N/mm². The threaded rods correspond to property class 4.8 according to DIN EN ISO 898-1:2009-08 or, in case of stainless steel, property class 70 according to EN ISO 3506-1:2009. For the connections with metal fasteners dowels ø12 mm (S235) with minimum characteristic tensile strength of R m = 360 N/mm² and screws 10x120 mm according to EN 14592 (DIN 571 and thread according to DIN 7998) or with ETA are used. The screws shall be driven into predrilled holes according to EN 1995-1-1, 10.4.5. Alternatively the specifications for pre-drilling given in the ETA of the screws shall be taken into account. EN 338:2010-02. The design of the connections shall be in accordance with Eurocode 3 and Eurocode 5 or a similar national code. The anchorage of the post base in the foundation and imperfections exceeding the assumptions in Eurocode 5, 5.4.4 are not part of this ETA. The post bases are for use in timber structures subject to the service classes 1, 2 and 3 of Eurocode 5 and for connections subject to static or quasi-static loading. The scope of the post bases regarding resistance to corrosion shall be defined according to national provisions that apply at the installation site considering environmental conditions. Section 2.7 of this ETA contains the corrosion protection for Pitzl post bases made from carbon steel and stainless steel. Assumed working life The assumed intended working life of the post bases for the intended use is 50 years, provided that they are subject to appropriate use and maintenance. The information on the working life should not be regarded as a guarantee provided by the manufacturer or ETA Danmark. An assumed intended working life means that it is expected that, when this working life has elapsed, the real working life may be, in normal use conditions, considerably longer without major degradation affecting the essential requirements. Dimensions are shown in Annex A and B. Intended use The intended use of the post bases is the support of timber columns and posts as load-bearing elements, where requirements for mechanical resistance and stability and safety in use in the sense of the Essential Requirements 1 and 4 of Council Directive 89/106/EEC shall be fulfilled. The static and kinematical behaviour of the timber members or the supports shall be as described in Annex B. The timber posts may be of solid timber of strength class C24 or better according to EN 338:2010-02. Minimum dimensions for the post have to be considered (Annex A). The end grain of the timber post in general must be plane on the base plate of the post base. The distance between the foundation and the base plate of the post base is given in Annex A, table A.1. For the height adjustable post bases different height levels are considered. Annex B states the load-carrying capacities of the post bases for solid timber of strength class C24 according to
Page 4 of 67 of European Technical Approval no. ETA-10/0413 2 Characteristics of product and assessment ETAG paragraph Characteristic 2.1 Mechanical resistance and stability*) Assessment of characteristic 6.1.1 Characteristic load-carrying capacity See Annex B 6.1.2 Stiffness No performance determined 6.1.3 Ductility in cyclic testing No performance determined 2.2 Safety in case of fire 6.2.1 Reaction to fire The post bases are made from steel classified as Euroclass A1 in accordance with EN 1350-1 and EC decision 96/603/EC, amended by EC Decision 2000/605/EC 2.3 Hygiene, health and the environment 6.3.1 Influence on air quality No dangerous materials **) 2.4 Safety in use Not relevant 2.5 Protection against noise Not relevant 2.6 Energy economy and heat retention Not relevant 2.7 Related aspects of serviceability 6.7.1 Durability The post bases have been assessed as having 6.7.2 Serviceability satisfactory durability and serviceability when used in timber structures using the timber species described in Eurocode 5 and subject to the conditions defined by service class 1 and 2 6.7.3 Identification See Annex A *) See page 5 of this ETA **) In accordance with http://europa.eu.int-/comm/enterprise/construction/internal/dangsub/dangmain.htm In addition to the specific clauses relating to dangerous substances contained in this European Technical Approval, there may be other requirements applicable to the products falling within its scope (e.g. transposed European legislation and national laws, regulations and administrative provisions). In order to meet the provisions of the EU Construction Products Directive, these requirements need also to be complied with, when and where they apply.
Page 5 of 67 of European Technical Approval no. ETA-10/0413 Safety principles and partial factors The characteristic load-carrying capacities are based on the characteristic values of the connections with metal fasteners, the steel plates and the timber post. In the case of timber failure or failure of the metal fasteners, the design values shall be calculated according to EN 1995-1-1 by dividing the characteristic values of the load-carrying capacities by different partial factors for the strength properties, and in addition multiplied with the coefficient k mod. In the case of steel failure, the design value shall be calculated according to EN 1993-1-1 by reducing the characteristic values of the load-carrying capacity with different partial factors. The design value of the load-carrying capacity is the smaller value of all load-carrying capacities: kmod FRk,H FRk,S FRd = min ; γm,h γmi,s Therefore, for timber failure or failure of the metal fasteners the load duration class and the service class are included. The different partial factors γ M for steel, timber or foundation failure, respectively, are also correctly taken into account. 2.1 Mechanical resistance and stability See Annex B for the characteristic load-carrying capacity in the different directions F 1 to F 5 for solid timber of strength class C24 according to EN 338:2010-02. Using the load-carrying capacities of the post bases, the specifications in Annex A must be fulfilled. The post base shall be installed centrically in the crosssection of the timber column and with the end grain plane on the base plate. Imperfections of the timber post are not included in the load-carrying capacities of the post bases. The characteristic capacities of the post bases are determined by a combination of calculation according to Eurocode 3 and Eurocode 5 and testing. They should be used for designs in accordance with Eurocode 3 and Eurocode 5 or a similar national code. The characteristic capacities of the connecting unit consisting of screws and threaded rods or tubes were determined by using test results of Karlsruhe Institute of Technology. No performance has been determined in relation to the joint s stiffness properties - to be used for the analysis of the serviceability limit state. No performance has been determined in relation to the anchorage of the post bases in the foundation. It must be checked by the designer of the structure to ensure it is not less than the post base capacity and, if necessary, the post base capacity reduced accordingly. Therefore the specifications for the lever arms e F2/F3 (for load case F 2 / F 3 ) and e F4/F5 (for load case F 4 / F 5 ) in annex A have to be considered. The lever arm is the distance between the top edge of the foundation and the load. 2.7 Related aspects of serviceability 2.7.1 Corrosion protection in service class 1, 2 and 3. In accordance with ETAG 015 the post bases are made from steel grade S235JR according to EN 10025-2:2005-04 with a minimum characteristic yield strength of R eh = 235 N/mm² and a minimum characteristic tensile strength of R m = 360 N/mm² or of steel grade 1.4301 according to EN 10088-3:2005-09 with a minimum characteristic yield strength of R p0,2 = 190 N/mm² and a minimum characteristic tensile strength of R m = 500 N/mm². The steel tubes are produced of steel grade P235 according to EN 10216-1:2004 or EN 10217-1:2005 with a minimum characteristic yield strength of R eh = 235 N/mm² and a minimum characteristic tensile strength of R m = 360 N/mm². The threaded rods correspond to property class 4.8 according to DIN EN ISO 898-1:2009-08 or, in case of stainless steel, property class 70 according to EN ISO 3506-1:2009 In accordance with Eurocode 5 the post bases are also made from steel grade 1.4301 according to EN 10088-3:2005-09 with a minimum characteristic yield strength of R p0,2 = 190 N/mm² and a minimum characteristic tensile strength of R m = 500 N/mm² or from steel grade S235JR with zinc-nickel coating ZiNip with a minimum thickness of 8 µm to 10 µm or hot-dip zinc coating Z350 according to EN 10147 No performance has been determined in relation to ductility of a joint under cyclic testing. The contribution to the performance of structures in seismic zones, therefore, has not been assessed.
Page 6 of 67 of European Technical Approval no. ETA-10/0413 3 Attestation of Conformity and CE marking 3.1 Attestation of Conformity system The system of attestation of conformity is 2+ described in Council Directive 89/106/EEC (Construction Products Directive) Annex III. a) Tasks for the manufacturer: (1) Factory production control, (2) Initial type testing of the product, b) Tasks for the notified body: (1) Initial inspection of the factory and the factory production control, (2) Continuous surveillance 3.2 Responsibilities 3.2.1 Tasks of the manufacturer 3.2.1.1 Factory production control The manufacturer has a factory production control system in the plant and exercises permanent internal control of production. All the elements, requirements and provisions adopted by the manufacturer are documented in a systematic manner in the form of written policies and procedures. This production control system ensures that the product is in conformity with the European Technical Approval. The manufacturer shall only use raw materials supplied with the relevant inspection documents as laid down in the control plan 4. The incoming raw materials shall be subject to controls and tests by the manufacturer before acceptance. Check of materials, such as sheet metal, shall include control of the inspection documents presented by suppliers (comparison with nominal values) by verifying dimension and determining material properties, e.g. chemical composition, mechanical properties and zinc coating thickness. The manufactured components are checked visually and for dimensions. 4 The control plan has been deposited at ETA-Danmark and is only made available to the approved bodies involved in the conformity attestation procedure. The control plan, which is part of the technical documentation of this European Technical Approval, includes details of the extent, nature and frequency of testing and controls to be performed within the factory production control and has been agreed between the approval holder and ETA Danmark. The results of factory production control are recorded and evaluated. The records include at least the following information: - Designation of the product, basic material and components; - Type of control or testing; - Date of manufacture of the product and date of testing of the product or basic material and components; - Result of control and testing and, if appropriate, comparison with requirements; - Signature of person responsible for factory production control. The records shall be presented to ETA Danmark on request. 3.2.1.1 Initial type testing of the product For initial type-testing the results of the tests performed as part of the assessment for the European Technical Approval shall be used unless there are changes in the production line or plant. In such cases the necessary initial type testing has to be agreed between ETA Danmark and the notified body. 3.2.2. Tasks of notified bodies 3.2.2.1 Initial inspection of the factory and the factory production control The approved body should ascertain that, in accordance with the control plan, the factory, in particular the staff and equipment, and the factory production control, are suitable to ensure a continuous and orderly manufacturing of the brackets with the specifications given in part 2. 3.2.2.2 Continuous surveillance The approved body shall visit the factory at least twice a year for routine inspections. It shall be verified that the system of factory production control and the specified manufacturing processes are maintained, taking account of the control plan.
Page 7 of 67 of European Technical Approval no. ETA-10/0413 The results of product certification and continuous surveillance shall be made available on demand by the certification body to ETA Danmark. Where the provisions of the European Technical Approval and the control plan are no longer fulfilled, the certificate of conformity shall be withdrawn by the approved body. 3.3 CE marking The CE marking shall be affixed on each packaging of brackets. The initials "CE" shall be followed by the identification number of the notified body and shall be accompanied by the following information: - Name or identifying mark of the manufacturer - The last two digits of the year in which the marking was affixed - Number of the European Technical Approval - Name and size of product - Number of the ETA Guideline (ETAG no. 015) - Number of the EC Certificate of Conformity
Page 8 of 67 of European Technical Approval no. ETA-10/0413 4 Assumptions under which the fitness of the product for the intended use was favourably assessed 4.1 Manufacturing Pitzl post bases are manufactured in accordance with the provisions of this European Technical Approval using the manufacturing processes as identified in the inspection of the plant by the notified inspection body and laid down in the technical documentation. 4.2 Installation The stated type of fasteners for each post base has to be applied in applicable holes in the post base. The installation instructions to be followed are: The primary structural member the post member shown in typical installation page 21 or a beam member The timber post shall be restrained against rotation, and supported at the lower and upper end shall be strength class C24 according to EN 338:2010 or better, see section II.1 of this ETA shall be free from wane in areas in contact with the post base must fulfil the requirements regarding minimum dimensions (see Annex A) end grain must in general be plane on the base plate of the post base. The actual end bearing capacity of the timber member to be used in conjunction with the post base is checked by the designer of the structure to ensure it is not less than the post base capacity and, if necessary, the post base capacity reduced accordingly. The post base shall only be subject to vertical tension loads (load case F 1 (Tension)) in short-term and instantaneous load-duration classes. Imperfections of the timber post are not included in the load-carrying capacities of the post bases. Additional horizontal loads resulting from imperfections, acting simultaneously with F 1, must be determined by the designer of the structure. The post base shall be installed centrically in the cross-section of the timber column. The minimum insertion depth in the turnbuckles should be the diameter of the rod. The base plates of the post bases with steel tubes as support must in general be plane on the tube end. The anchorage of the post base in the foundation is not part of this ETA. It must be checked by the designer of the structure to ensure it is not less than the post base capacity and, if necessary, the post base capacity reduced accordingly. Therefore the specifications for the lever arms e F2/F3 (for load case F 2 / F 3 ) and e F4/F5 (for load case F 4 / F 5 ) in Annex A have to be considered. The lever arm is the distance between the top edge of the foundation and the load. To ensure sufficient capacity the designer has to take into account splitting of the timber. There shall be no gap between the timber and the horizontal contact area. Otherwise the gap between the timber member and the post base may not exceed 3 mm. There are no specific requirements relating to preparation of the timber members. The calculations are based on not pre-drilled holes for nails and screws. However the holes for lag screws, dowels and bolts have to be pre-drilled. Alternatively the specifications for pre-drilling given in the ETA of the screws shall be taken into account. The execution of the connection shall be in accordance with the approval holder s technical literature. 4.3 Maintenance and repair Maintenance is not required during the assumed intended working life. Should repair prove necessary, it is normal to replace the connector. Thomas Bruun Manager, ETA-Danmark
Page 9 of 67 of European Technical Approval no. ETA-10/0413 Annex A Product details and definitions Table A.1 Specifications of the post bases Post base Metal Fasteners Post [mm] Distances [mm] Type Dimension Art.-Nr. Screws* Dowels min b/h max. a e F2/F3 e F4/F5 1001 125 1001.00 4x F 10x120mm - 120/120 125 125 125 1003 125 1003.00 4x F 10x120mm 1x D ø12 mm in upper hole 120/120 125 195 125 1005 160 1005.00 4x F 10x120mm - 140/140 160 160 160 1007 160 1007.00 4x F 10x120mm 1x D ø12 mm In upper hole 140/140 160 225 160 1008 400 1008.08 4x F 10x120mm - 150/150 250 250 250 1014 1015 1016 10920 10921 150 1014.00 4x F 10x120mm - 120/120 156 156 156 150 1014.08 4x F 10x120mm - 100/100 156 156 156 250 1015.00 4x F 10x120mm - 120/120 256 256 256 250 1015.08 4x F 10x120mm - 100/100 256 256 256 250 1016.00 4x F 10x120mm - 120/120 256 256 256 330 1016.10 4x F 10x120mm - 120/120 336 336 336 500 1016.20 4x F 10x120mm - 120/120 506 506 506 250 1016.08 4x F 10x120mm - 100/100 256 256 256 330 1016.18 4x F 10x120mm - 100/100 336 336 336 500 1016.28 4x F 10x120mm - 100/100 506 506 506 250 1016.30 4x F 10x120mm - 120/120 260 260 260 330 1016.31 4x F 10x120mm - 120/120 340 340 340 500 1016.32 4x F 10x120mm - 120/120 510 510 510 65 10920.00 4x F 10x120mm - 120/120 142-207 207 207 90 10920.00 A 4x F 10x120mm - 120/120 167-232 232 232 150 10920.00 B 4x F 10x120mm - 120/120 227-292 292 292 180 10920.00 C 4x F 10x120mm - 120/120 257-322 322 322 250 10920.00 D 4x F 10x120mm - 120/120 327-392 392 392 65 10920.30 4x F 10x120mm - 120/120 150-210 210 210 65 10921.00 4x F 10x120mm - 120/120 142-207 207 207 90 10921.00 A 4x F 10x120mm - 120/120 167-232 232 232 150 10921.00 B 4x F 10x120mm - 120/120 227-292 292 292 180 10921.00 C 4x F 10x120mm - 120/120 257-322 322 322 250 10921.00 D 4x F 10x120mm - 120/120 327-392 392 392 35 10921.10 4x F 10x120mm - 120/120 82-92 92 92 65 10921.30 4x F 10x120mm - 120/120 150-210 210 210 65 10921.36 4x F 10x120mm - 120/120 160-220 220 220 90 10921.36 A 4x F 10x120mm - 120/120 185-245 245 245 150 10921.36 B 4x F 10x120mm - 120/120 245-305 305 305 180 10921.36 C 4x F 10x120mm - 120/120 275-335 335 335 250 10921.36 D 4x F 10x120mm - 120/120 345-405 405 405 90 10921.40 4x F 10x120mm - 120/120 190-255 250 250
Page 10 of 67 of European Technical Approval no. ETA-10/0413 Continuation of Table A.1 Specifications of the post bases Post base Metal Fasteners Post [mm] Distances [mm] Type Dimension Art.-Nr. Screws* Dowels min b/h max. a e F2/F3 e F4/F5 65 10930.00 4x F 10x120mm - 120/120 170-285 285 285 90 10930.00 A 4x F 10x120mm - 120/120 195-310 310 310 150 10930.00 B 4x F 10x120mm - 120/120 255-370 370 370 180 10930.00 C 4x F 10x120mm - 120/120 285-400 400 400 35 10930.10 4x F 10x120mm - 120/120 110-200 200 200 65 10930.30 4x F 10x120mm - 120/120 195-285 285 285 350 10930.35 4x F 10x120mm - 120/120 200 200 200 450 10930.45 4x F 10x120mm - 120/120 300 300 300 65 10930.36 4x F 10x120mm - 120/120 205-300 300 300 90 10930.36 A 4x F 10x120mm - 120/120 230-325 325 325 150 10930.36 B 4x F 10x120mm - 120/120 290-385 385 385 10930 180 10930.36 C 4x F 10x120mm - 120/120 320-415 415 415 125 10930.50 4x F 10x120mm - 120/120 125 125 125 160 10930.51 4x F 10x120mm - 120/120 160 160 160 200 10930.52 4x F 10x120mm - 120/120 200 200 200 125 10930.55 4x F 10x120mm - 120/120 125 125 125 160 10930.56 4x F 10x120mm - 120/120 160 160 160 200 10930.57 4x F 10x120mm - 120/120 200 200 200 250 10930.70 4x F 10x120mm - 120/120 100 124 124 330 10930.71 4x F 10x120mm - 120/120 180 204 204 250 10930.73 4x F 10x120mm - 120/120 100 130 130 330 10930.74 4x F 10x120mm - 120/120 180 210 210 65 10931.00 4x F 10x120mm - 140/140 170-285 285 285 90 10931.00 A 4x F 10x120mm - 140/140 195-310 310 310 150 10931.00 B 4x F 10x120mm - 140/140 255-370 370 370 180 10931.00 C 4x F 10x120mm - 140/140 285-400 400 400 10931 35 10931.10 4x F 10x120mm - 140/140 110-200 200 200 65 10931.30 4x F 10x120mm - 140/140 195-285 285 285 65 10931.36 4x F 10x120mm - 140/140 205-300 300 300 90 10931.36 A 4x F 10x120mm - 140/140 230-325 325 325 160 10931.36 B 4x F 10x120mm - 140/140 290-385 385 385 180 10931.36 C 4x F 10x120mm - 140/140 320-415 415 415 125 10933.00 4x F 10x120mm - 140/140 125 125 125 160 10933.10 4x F 10x120mm - 140/140 160 160 160 10933 200 10933.20 4x F 10x120mm - 140/140 200 200 200 125 10933.50 4x F 10x120mm - 140/140 125 125 125 160 10933.60 4x F 10x120mm - 140/140 160 160 160 200 10933.70 4x F 10x120mm - 140/140 200 200 200
Page 11 of 67 of European Technical Approval no. ETA-10/0413 Continuation of Table A.1 Specifications of the post bases Post base Metal Fasteners Post [mm] Distances [mm] Type Dimension Art.-Nr. Screws* Dowels min b/h max. a e F2/F3 e F4/F5 250 10934.00 4x F 10x120mm - 140/140 100 124 124 10934 330 10934.10 4x F 10x120mm - 140/140 180 204 204 250 10934.30 4x F 10x120mm - 140/140 100 130 130 330 10934.31 4x F 10x120mm - 140/140 180 210 210 10935 350 10935.00 4x F 10x120mm - 140/140 200 248 248 350 10935.50 4x F 10x120mm - 120/120 200 248 248 10945 450 10945.00 4x F 10x120mm - 140/140 300 348 348 450 10945.50 4x F 10x120mm - 120/120 300 348 348 125 10950.00 4x F 10x120mm - 120/120 125 125 125 160 10950.10 4x F 10x120mm - 120/120 160 160 160 10950 200 10950.20 4x F 10x120mm - 120/120 200 200 200 125 10950.50 4x F 10x120mm - 120/120 125 125 125 160 10950.60 4x F 10x120mm - 120/120 160 160 160 200 10950.70 4x F 10x120mm - 120/120 200 200 200 10952 65 10952.00 4x F 10x120mm - 120/120 146-211 211 211 *F = full-thread wood screw - alternatively longer wood screws according to table A.3 may be applied.
Page 12 of 67 of European Technical Approval no. ETA-10/0413 Table A.2: Specifications for post-beam-connector Post-Purlin-Connector Metal Fasteners Post [mm] Purlin [mm] Type Dimension Art.-Nr. Screws* threaded rod min b/h min b/h 8710 M10 8710 4x F 10x120mm 8712 M12 8712 4x F 10x120mm 8716 M16 8716 4x F 10x120mm *F = full-thread wood screw M10 4.8 + washer Ø 58 mm M12 4.8 + washer Ø 58 mm M16 4.8 + washer Ø 68 mm 120/120 120/90 120/120 120/90 120/120 120/90 Table A.3 Specifications of the metal fasteners Fastener type Size [mm] Finish Diameter Length Threaded length Dowels (S235) 12 mm Galvanic zinc coating Wood Screws according to EN 14592 or with ETA 10 mm min 120 mm min 100 mm Galvanic zinc coating The load-carrying-capacities of the metal fasteners were calculated according to Eurocode 5. The loadcarrying-capacities of the screws parallel to the grain were calculated by means of research results and verified by tests on typical post base installations. In typical post base installations the screw connection is loaded in tension only in short-term and instantaneous load-duration classes. Minimum edge and end distances are accounted for by observing the minimum post dimensions given in the tables A.1 and A.2.
Page 13 of 67 of European Technical Approval no. ETA-10/0413 Annex B Characteristic load-carrying capacities Table B.1: Characteristic load-carrying capacities for post bases type 1001, 1003, 1005, 1007 and 1008.08 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 1001.00 1003.00 1005.00 1007.00 1001.00 90,0 93,0-16,3 30,4-10,0 3,5-10,0 3,5 - γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0-1003.00 90,0 93,0-16,3 30,4-12,6 2,2-5,9 3,2 - γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0-1005.00 90,0 93,0-16,3 16,6-10,0 3,2-10,0 3,2 - γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0-1007.00 90,0 93,0-16,3 16,6-10,0 2,2-10,0 3,1 - γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0-1008.08 381,5 279,3-16,3 - - 10,0 14,8-10,0 14,8* - 1008.08 γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0 - * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes Table B.2: Characteristic load-carrying capacities for post bases type 1014 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 1014.00 a 150 mm (a = distance between base plate and foundation) Welded nut 90,0 94,9-16,3 7,4* - 10,0 2,8 3,5 10,0 1,7* 3,5 Tension lug 90,0 94,9-8,7 3,6 4,5 10,0 2,8 3,5 10,0 1,7* 3,5 a 75 mm (a = distance between base plate and foundation) 90,0 103,8 - - - - 10,0 5,6 7,0 10,0 3,4* 7,0 Welded nut 90,0 103,8-16,3 7,4* - 10,0 5,6 7,0 10,0 3,4* 7,0 Tension lug 90,0 103,8-8,7 3,6 4,5 10,0 5,6 7,0 10,0 3,4* 7,0 1014.08 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 a 150 mm (a = distance between base plate and foundation) Welded nut 56,5 94,9-16,3 7,4* - 6,9 2,8 3,5 6,9 1,7* 3,5 Tension lug 56,5 94,9-8,7 3,6 4,5 6,9 2,8 3,5 6,9 1,7* 3,5 a 75 mm (a = distance between base plate and foundation) 56,5 103,8 - - - - 6,9 5,6 7,0 6,9 3,4* 7,0 Welded nut 56,5 103,8-16,3 7,4* - 6,9 5,6 7,0 6,9 3,4* 7,0 Tension lug 56,5 103,8-8,7 3,6 4,5 6,9 5,6 7,0 6,9 3,4* 7,0 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 14 of 67 of European Technical Approval no. ETA-10/0413 Table B.3: Characteristic load-carrying capacities for post bases type 1015 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 1015.00 a 250 mm (a = distance between base plate and foundation) Welded nut 90,0 80,8-16,3 16,8-10,0 1,8 2,1 10,0 1,8 2,1 Tension lug 90,0 80,8-8,7 3,6 4,5 10,0 1,8 2,1 10,0 1,8 2,1 a 125 mm (a = distance between base plate and foundation) 90,0 98,2 - - - - 10,0 3,4 4,2 10,0 3,4 4,2 Welded nut 90,0 98,2-16,3 16,8-10,0 3,4 4,2 10,0 3,4 4,2 Tension lug 90,0 98,2-8,7 3,6 4,5 10,0 3,4 4,2 10,0 3,4 4,2 1015.08 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 a 250 mm (a = distance between base plate and foundation) Welded nut 56,5 80,8-16,3 16,8-6,9 1,8 2,1 6,9 1,8 2,1 Tension lug 56,5 80,8-8,7 3,6 4,5 6,9 1,8 2,1 6,9 1,8 2,1 a 125 mm (a = distance between base plate and foundation) 56,5 98,2 - - - - 6,9 3,4 4,2 6,9 3,4 4,2 Welded nut 56,5 98,2-16,3 16,8-6,9 3,4 4,2 6,9 3,4 4,2 Tension lug 56,5 98,2-8,7 3,6 4,5 6,9 3,4 4,2 6,9 3,4 4,2 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes Table B.4: Characteristic load-carrying capacities for post bases type 1016 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 1016.00 a 250 mm (a = distance between base plate and foundation) Welded nut 90,0 80,8-16,3 7,4* - 10,0 1,7 2,1 10,0 1,0* 2,1 Tension lug 90,0 80,8-8,7 3,6 4,5 10,0 1,7 2,1 10,0 1,0* 2,1 a 125 mm (a = distance between base plate and foundation) 90,0 98,2 - - - - 10,0 3,4 4,2 10,0 2,0* 4,2 Welded nut 90,0 98,2-16,3 7,4* - 10,0 3,4 4,2 10,0 2,0* 4,2 Tension lug 90,0 98,2-8,7 3,6 4,5 10,0 3,4 4,2 10,0 2,0* 4,2 1016.08 1016.10 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 a 250 mm (a = distance between base plate and foundation) Welded nut 56,5 80,8-16,3 7,4* - 6,9 1,7 2,1 6,9 1,0* 2,1 Tension lug 56,5 80,8-8,7 3,6 4,5 6,9 1,7 2,1 6,9 1,0* 2,1 a 125 mm (a = distance between base plate and foundation) 56,5 98,2 - - - - 6,9 3,4 4,2 6,9 2,0* 4,2 Welded nut 56,5 98,2-16,3 7,4* - 6,9 3,4 4,2 6,9 2,0* 4,2 Tension lug 56,5 98,2-8,7 3,6 4,5 6,9 3,4 4,2 6,9 2,0* 4,2 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 a 330 mm (a = distance between base plate and foundation) Welded nut 90,0 68,2-16,3 7,4* - 10,0 1,3 1,6 10,0 0,8* 1,6 Tension lug 90,0 68,2-8,7 3,6 4,5 10,0 1,3 1,6 10,0 0,8* 1,6 a 165 mm (a = distance between base plate and foundation) 90,0 92,9 - - - - 10,0 2,6 3,2 10,0 1,5* 3,2 Welded nut 90,0 92,9-16,3 7,4* - 10,0 2,6 3,2 10,0 1,5* 3,2 Tension lug 90,0 92,9-8,7 3,6 4,5 10,0 2,6 3,2 10,0 1,5* 3,2 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 15 of 67 of European Technical Approval no. ETA-10/0413 Continuation of Table B.4: Characteristic load-carrying capacities for post bases type 1016 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 1016.18 a 330 mm (a = distance between base plate and foundation) Welded nut 56,5 68,2-16,3 7,4* - 6,9 1,3 1,6 6,9 0,8* 1,6 Tension lug 56,5 68,2-8,7 3,6 4,5 6,9 1,3 1,6 6,9 0,8* 1,6 a 165 mm (a = distance between base plate and foundation) 56,5 92,9 - - - - 6,9 2,6 3,2 6,9 1,5* 3,2 Welded nut 56,5 92,9-16,3 7,4* - 6,9 2,6 3,2 6,9 1,5* 3,2 Tension lug 56,5 92,9-8,7 3,6 4,5 6,9 2,6 3,2 6,9 1,5* 3,2 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 1016.20 a 500 mm (a = distance between base plate and foundation) Welded nut 90,0 43,9-16,3 7,4* - 10,0 0,8 1,1 10,0 0,5* 1,1 Tension lug 90,0 43,9-8,7 3,6 4,5 10,0 0,8 1,1 10,0 0,5* 1,1 a 250 mm (a = distance between base plate and foundation) 90,0 80,8 - - - - 10,0 1,7 2,1 10,0 1,0* 2,1 Welded nut 90,0 80,8-16,3 7,4* - 10,0 1,7 2,1 10,0 1,0* 2,1 Tension lug 90,0 80,8-8,7 3,6 4,5 10,0 1,7 2,1 10,0 1,0* 2,1 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 1016.28 a 500 mm (a = distance between base plate and foundation) Welded nut 56,5 43,9-16,3 7,4* - 6,9 0,8 1,1 6,9 0,5* 1,1 Tension lug 56,5 43,9-8,7 3,6 4,5 6,9 0,8 1,1 6,9 0,5* 1,1 a 250 mm (a = distance between base plate and foundation) 56,5 80,8 - - - - 6,9 1,7 2,1 6,9 1,0* 2,1 Welded nut 56,5 80,8-16,3 7,4* - 6,9 1,7 2,1 6,9 1,0* 2,1 Tension lug 56,5 80,8-8,7 3,6 4,5 6,9 1,7 2,1 6,9 1,0* 2,1 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 1016.30 a 250 mm (a = distance between base plate and foundation) Welded nut 159,2 141,5-16,3 20,6* - 13,1 3,6 3,3 13,1 2,8* 3,3 Tension lug 159,2 141,5-8,7 7,9 9,4 13,1 3,6 3,3 13,1 2,8* 3,3 a 125 mm (a = distance between base plate and foundation) 159,2 162,6 - - - - 13,1 9,4 6,6 13,1 5,6* 6,6 Welded nut 159,2 162,6-16,3 20,6* - 13,1 9,4 6,6 13,1 5,6* 6,6 Tension lug 159,2 162,6-8,7 7,9 9,4 13,1 9,4 6,6 13,1 5,6* 6,6 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 1016.31 a 330 mm (a = distance between base plate and foundation) Welded nut 159,2 126,6-16,3 20,6* - 13,1 2,7 2,5 13,1 2,1* 2,5 Tension lug 159,2 126,6-8,7 7,9 9,4 13,1 2,7 2,5 13,1 2,1* 2,5 a 165 mm (a = distance between base plate and foundation) 159,2 156,0 - - - - 13,1 5,5 5,0 13,1 4,3* 5,0 Welded nut 159,2 156,0-16,3 20,6* - 13,1 5,5 5,0 13,1 4,3* 5,0 Tension lug 159,2 156,0-8,7 7,9 9,4 13,1 5,5 5,0 13,1 4,3* 5,0 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 16 of 67 of European Technical Approval no. ETA-10/0413 Continuation of Table B.4: Characteristic load-carrying capacities for post bases type 1016 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 1016.32 a 500 mm (a = distance between base plate and foundation) Welded nut 159,2 92,9-16,3 20,6* - 13,1 1,8 1,7 13,1 1,4* 1,7 Tension lug 159,2 92,9-8,7 7,9 9,4 13,1 1,8 1,7 13,1 1,4* 1,7 a 250 mm (a = distance between base plate and foundation) 159,2 141,5 - - - - 13,1 3,6 3,3 13,1 2,8* 3,3 Welded nut 159,2 141,5-16,3 20,6* - 13,1 3,6 3,3 13,1 2,8* 3,3 Tension lug 159,2 141,5-8,7 7,9 9,4 13,1 3,6 3,3 13,1 2,8* 3,3 γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes Table B.5: Characteristic load-carrying capacities for post bases type 10920 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 10920 At maximum distance between base plate and foundation** 10920.00 90,0 87,4-16,3 7,4* - 11,0 2,1 2,2 11,0 1,2* - 10920.00 A 90,0 83,8-16,3 7,4* - 11,0 1,8 2,0 11,0 1,1* - 10920.00 B 90,0 74,6-16,3 7,4* - 11,0 1,5 1,6 11,0 0,9* - 10920.00 C 90,0 69,8-16,3 7,4* - 11,0 1,3 1,4 11,0 0,8* - 10920.00 D 90,0 58,8-16,3 7,4* - 11,0 1,1 1,2 11,0 0,6* - 10920.30 146,1 148,5-16,3 20,6* - 13,1 4,3 3,8 13,1 3,3* 3,8 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 10920 At minimum distance between base plate and foundation** 10920.00 90,0 96,2-16,3 7,4* - 11,0 3,0 3,2 11,0 1,8* - 10920.00 A 90,0 92,9-16,3 7,4* - 11,0 2,6 2,7 11,0 1,5* - 10920.00 B 90,0 84,5-16,3 7,4* - 11,0 1,9 2,0 11,0 1,1* - 10920.00 C 90,0 80,0-16,3 7,4* - 11,0 1,7 1,8 11,0 0,9* - 10920.00 D 90,0 69,0-16,3 7,4* - 11,0 1,4 1,4 11,0 0,8* - 10920.30 146,1 158,5-16,3 20,6* - 13,1 6,0 5,4 13,1 4,7* 5,4 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 **Linear interpolation may be applied for interim values *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 17 of 67 of European Technical Approval no. ETA-10/0413 Table B.6: Characteristic load-carrying capacities for post bases type 10921 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 10921 At maximum distance between base plate and foundation** 10921.00 90,0 87,4 68,6 16,3 7,4* - 10,0 2,1 2,2 10,0 1,2* - 10921.00 A 90,0 83,8 68,6 16,3 7,4* - 10,0 1,8 2,0 10,0 1,1* - 10921.00 B 90,0 74,6 68,6 16,3 7,4* - 10,0 1,5 1,6 10,0 0,9* - 10921.00 C 90,0 69,8 68,6 16,3 7,4* - 10,0 1,3 1,4 10,0 0,8* - 10921.00 D 90,0 58,8 68,6 16,3 7,4* - 10,0 1,1 1,2 10,0 0,6* - 10921.10 90,0 102,7 68,6 16,3 7,4* - 10,0 4,7 5,0 10,0 2,8* - 10921.30 131,1 148,5 97,9 16,3 20,6* - 10,0 4,3 3,8 10,0 3,3* 3,8 10921.36 185,7 164,2 171,4 16,3 - - 10,0 4,9 3,9 10,0 4,9 3,9 10921.36 A 185,7 147,6 171,4 16,3 - - 10,0 4,2 3,5 10,0 4,2 3,5 10921.36 B 185,7 137,0 171,4 16,3 - - 10,0 3,3 2,8 10,0 3,3 2,8 10921.36 C 185,7 131,4 171,4 16,3 - - 10,0 3,0 2,6 10,0 3,0 2,6 10921.36 D 185,7 117,8 171,4 16,3 - - 10,0 2,5 2,1 10,0 2,5 2,1 10921.40 90,0 80,8 68,6 16,3 7,4* - 10,0 1,7 1,8 10,0 1,0* - 10921 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 At minimum distance between base plate and foundation** 10921.00 90,0 96,2 68,6 16,3 7,4* - 10,0 3,0 3,2 10,0 1,8* - 10921.00 A 90,0 92,9 68,6 16,3 7,4* - 10,0 2,6 2,7 10,0 1,5* - 10921.00 B 90,0 84,5 68,6 16,3 7,4* - 10,0 1,9 2,0 10,0 1,1* - 10921.00 C 90,0 80,0 68,6 16,3 7,4* - 10,0 1,7 1,8 10,0 0,9* - 10921.00 D 90,0 69,0 68,6 16,3 7,4* - 10,0 1,4 1,4 10,0 0,8* - 10921.10 90,0 103,8 68,6 16,3 7,4* - 10,0 5,3 5,6 10,0 3,2* - 10921.30 131,1 158,5 97,9 16,3 20,6* - 10,0 6,0 5,4 10,0 4,7* 5,4 10921.36 185,7 175,3 171,4 16,3 - - 10,0 7,0 5,4 10,0 7,0 5,4 10921.36 A 185,7 157,7 171,4 16,3 - - 10,0 5,5 4,7 10,0 5,5 4,7 10921.36 B 185,7 147,6 171,4 16,3 - - 10,0 4,2 3,5 10,0 4,2 3,5 10921.36 C 185,7 142,4 171,4 16,3 - - 10,0 3,7 3,1 10,0 3,7 3,1 10921.36 D 185,7 129,5 171,4 16,3 - - 10,0 3,0 2,5 10,0 3,0 2,5 10921.40 90,0 90,2 68,6 16,3 7,4* - 10,0 2,3 2,4 10,0 1,4* - γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 **Linear interpolation may be applied for interim values *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 18 of 67 of European Technical Approval no. ETA-10/0413 Table B.7: Characteristic load-carrying capacities for post bases type 10930 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 10930 Maximum distance between base plate and foundation see table A.1 10930.35 90,0 106,5-16,3 106,5 86,7 7,3 6,2-7,3 6,2-10930.45 90,0 106,5-16,3 106,5 86,7 7,3 4,4-7,3 4,4-10930.50 90,0 106,5-16,3 41,8-7,3 7,3-7,3 7,3-10930.51 90,0 106,5-16,3 41,8-7,3 5,6-7,3 5,6-10930.52 90,0 106,5-16,3 41,8-7,3 4,5-7,3 4,5-10930.55 90,0 106,5-16,3 25,6* - 7,3 6,4-7,3 3,8* - 10930.56 90,0 106,5-16,3 25,6* - 7,3 4,9-7,3 3,0* - 10930.57 90,0 106,5-16,3 25,6* - 7,3 3,9-7,3 2,3* - 10930.70 90,0 101,4-16,3 103,8 88,1 7,3 2,4-7,3 2,4-10930.71 90,0 90,8-16,3 103,8 88,1 7,3 1,5-7,3 1,5-10930.73 122,8 166,1-16,3-88,1 7,3 4,7-7,3 4,7-10930.74 122,8 153,5-16,3-88,1 7,3 2,9-7,3 2,9 - γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 10930 At maximum distance between base plate and foundation** 10930.00 90,0 75,2-16,3 13,2* - 7,3 1,6 1,6 7,3 1,6* 1,6 10930.00 A 90,0 71,2-16,3 13,2* - 7,3 1,4 1,5 7,3 1,4* 1,5 10930.00 B 90,0 61,7-16,3 13,2* - 7,3 1,2 1,2 7,3 1,2* 1,2 10930.00 C 90,0 57,2-16,3 13,2* - 7,3 1,1 1,1 7,3 1,1* 1,1 10930.10 90,0 87,9-16,3 13,2* - 7,3 2,2 2,3 7,3 2,2* 2,3 10930.30 125,8 154,6-16,3 20,6* - 7,3 3,2 2,8 7,3 2,5* 2,8 10930.36 168,6 154,6-16,3 - - 7,3 3,7 3,1 7,3 3,7 3,1 10930.36 A 168,6 140,3-16,3 - - 7,3 2,8 2,5 7,3 2,8 2,5 10930.36 B 168,6 129,2-16,3 - - 7,3 2,4 2,1 7,3 2,4 2,1 10930.36 C 168,6 123,3-16,3 - - 7,3 2,2 1,9 7,3 2,2 1,9 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 10930 At minimum distance between base plate and foundation** 10930.00 90,0 92,0-16,3 13,2* - 7,3 2,6 2,6 7,3 2,6* 2,6 10930.00 A 90,0 88,6-16,3 13,2* - 7,3 2,3 2,3 7,3 2,3* 2,3 10930.00 B 90,0 79,8-16,3 13,2* - 7,3 1,8 1,8 7,3 1,8* 1,8 10930.00 C 90,0 75,2-16,3 13,2* - 7,3 1,6 1,6 7,3 1,6* 1,6 10930.10 90,0 99,9-16,3 13,2* - 7,3 4,1 4,0 7,3 4,1* 4,0 10930.30 125,8 172,2-16,3 20,6* - 7,3 4,6 4,1 7,3 3,6* 4,1 10930.36 168,6 172,2-16,3 - - 7,3 5,5 5,6 7,3 5,5 5,6 10930.36 A 168,6 156,5-16,3 - - 7,3 3,9 3,5 7,3 3,9 3,5 10930.36 B 168,6 146,4-16,3 - - 7,3 3,1 2,8 7,3 3,1 2,8 10930.36 C 168,6 141,2-16,3 - - 7,3 2,8 2,5 7,3 2,8 2,5 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 **Linear interpolation may be applied for interim values *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 19 of 67 of European Technical Approval no. ETA-10/0413 Table B.8: Characteristic load-carrying capacities for post bases type 10931 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 10931 10931 At maximum distance between base plate and foundation** 10931.00 90,0 75,2-16,3 13,2* - 10,0 1,6 1,6 10,0 1,6* 1,6 10931.00 A 90,0 71,2-16,3 13,2* - 10,0 1,4 1,5 10,0 1,4* 1,5 10931.00 B 90,0 61,7-16,3 13,2* - 10,0 1,2 1,2 10,0 1,2* 1,2 10931.00 C 90,0 57,2-16,3 13,2* - 10,0 1,1 1,1 10,0 1,1* 1,1 10931.10 90,0 87,9-16,3 13,2* - 10,0 2,2 2,3 10,0 2,2* 2,3 10931.30 122,8 154,6-16,3 20,6* - 10,0 3,2 2,8 10,0 2,5* 2,8 10931.36 168,6 154,6-16,3 - - 10,0 3,7 3,1 10,0 3,7 3,1 10931.36 A 168,6 140,3-16,3 - - 10,0 2,8 2,5 10,0 2,8 2,5 10931.36 B 168,6 129,2-16,3 - - 10,0 2,4 2,1 10,0 2,4 2,1 10931.36 C 168,6 123,3-16,3 - - 10,0 2,2 1,9 10,0 2,2 1,9 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 At minimum distance between base plate and foundation** 10931.00 90,0 92,0-16,3 13,2* - 10,0 2,6 2,6 10,0 2,6* 2,6 10931.00 A 90,0 88,6-16,3 13,2* - 10,0 2,3 2,3 10,0 2,3* 2,3 10931.00 B 90,0 79,8-16,3 13,2* - 10,0 1,8 1,8 10,0 1,8* 1,8 10931.00 C 90,0 75,2-16,3 13,2* - 10,0 1,6 1,6 10,0 1,6* 1,6 10931.10 90,0 99,9-16,3 13,2* - 10,0 4,1 4,0 10,0 4,1* 4,0 10931.30 122,8 172,2-16,3 20,6* - 10,0 4,6 4,1 10,0 3,6* 4,1 10931.36 168,6 172,2-16,3 - - 10,0 5,5 5,6 10,0 5,5 5,6 10931.36 A 168,6 156,5-16,3 - - 10,0 3,9 3,5 10,0 3,9 3,5 10931.36 B 168,6 146,4-16,3 - - 10,0 3,1 2,8 10,0 3,1 2,8 10931.36 C 168,6 141,2-16,3 - - 10,0 2,8 2,5 10,0 2,8 2,5 γm γm,1 - γm(c) γm,0 - γm γm,0 γm,2 γm γm,0 γm,2 * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 **Linear interpolation may be applied for interim values *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes Table B.9: Characteristic load-carrying capacities for post bases type 10933, 10934, 10935 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 10933 10934 10935 10933.00 90,0 106,5-16,3 41,8-10,0 7,3-10,0 7,3-10933.10 90,0 106,5-16,3 41,8-10,0 5,6-10,0 5,6-10933.20 90,0 106,5-16,3 41,8-10,0 4,5-10,0 4,5-10933.50 90,0 106,5-16,3 25,6* - 10,0 6,4-10,0 3,8* - 10933.60 90,0 106,5-16,3 25,6* - 10,0 4,9-10,0 3,0* - 10933.70 90,0 106,5-16,3 25,6* - 10,0 3,9-10,0 2,3* - γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0-10934.00 90,0 101,4-16,3 103,8 88,1 10,0 2,4-10,0 2,4-10934.10 90,0 90,8-16,3 103,8 88,1 10,0 1,5-10,0 1,5-10934.30 122,8 166,1-16,3-88,1 10,0 4,7-10,0 4,7-10934.31 122,8 153,5-16,3-88,1 10,0 2,9-10,0 2,9 - γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 - γm γm,0-10935.00 90,0 106,5-16,3 106,5 86,7 10,0 6,2-10,0 6,2-10935.50 90,0 106,5-16,3 106,5 86,7 10,0 6,2-10,0 6,2 - γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 - γm γm,0 - * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 20 of 67 of European Technical Approval no. ETA-10/0413 Table B.10: Characteristic load-carrying capacities for post bases type 10945, 10950, 10952 in kn Post Base F 1 (Compression) F 1 (Tension)*** F 2 /F 3 F 4 /F 5 Type Art.Nr. Timber Steel Timber Steel Timber Steel Timber Steel 10945 10950 10945.00 90,0 106,5-16,3 106,5 86,7 10,0 4,4-10,0 4,4-10945.50 90,0 106,5-16,3 106,5 86,7 10,0 4,4-10,0 4,4 - γm γm,1 - γm(c) γm,0 γm,2 γm γm,0 - γm γm,0-10950.00 90,0 106,5-16,3 41,8-10,0 7,3-10,0 7,3-10950.10 90,0 106,5-16,3 41,8-10,0 5,6-10,0 5,6-10950.20 90,0 106,5-16,3 41,8-10,0 4,5-10,0 4,5-10950.50 90,0 106,5-16,3 25,6* - 10,0 6,4-10,0 3,8* - 10950.60 90,0 106,5-16,3 25,6* - 10,0 4,9-10,0 3,0* - 10950.70 90,0 106,5-16,3 25,6* - 10,0 3,9-10,0 2,3* - γm γm,1 - γm(c) γm,0 - γm γm,0 - γm γm,0-10952.00 90,0 118,7 83,8 16,3 11,8* - 10,0 2,5-10,0 2,5* - 10952 γm γm,1 γm,2 γm(c) γm,0 - γm γm,0 - γm γm,0 - * In case of a longer ground plate l=220 mm, the values have to be reduced with a factor of 0,6 *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes Table B.11: Characteristic load-carrying capacities for post-beam-connector [kn] post-beam-connector F 1 (Compression) F 1 (Tension) *** F 2 /F 3 F 4 /F 5 Type Art.-Nr. Timber Steel Timber Steel Timber Steel Timber Steel 8710 8712 8710 to calculate according to EC 5 8712 to calculate according to EC 5-16,3 16,7-7,3 - - 6,3 - - - γm(c) γm,0 - γm - - γm(c) - - - 16,3 - - 7,3 - - 7,3 - - - γm(c) - - γm - - γm - - 8716 8716 to calculate according to EC 5-16,3 - - 7,3 - - 7,3 - - - γm(c) - - γm - - γm - - *** The load-carrying capacity in load case F 1 (Tension) is only valid in short-term and instantaneous load-duration classes
Page 21 of 67 of European Technical Approval no. ETA-10/0413 Force F 1 : tensile or compression load Definitions of forces, their directions and eccentricity F1 1 F1 1 Force F 2 / F 3 : horizontal load parallel to the inner plate of the post base or to the longest side of the lower plate F 2 / F 3 F23 F 2 / F 3 Force F 4 / F 5 : horizontal load perpendicular to the inner plate of the post base or to the longest side of the lower plate F 4 / F 5 F 4 / F 5 F45 Acting forces F 1 F 2 and F 3 F 4 and F 5 axial force (tension or compression) acting along the central axis of the joint horizontal force parallel to the inner plate of the post base or to the longest side of the lower plate acting with the lever arm e F2/F3 above the foundation horizontal force perpendicular to the inner plate of the post base or to the longest side of the lower plate acting with the lever arm e F4/F5 above the foundation
Page 22 of 67 of European Technical Approval no. ETA-10/0413 Combined forces If the forces F 1 and F 2 /F 3 or F 4 /F 5 act at the same time, the following inequality shall be fulfilled: F i,d R 1 i,d The forces F 2 and F 3 or F 4 and F 5 are forces with opposite direction. Therefore only one force F 2 or F 3, and F 4 or F 5, respectively, is able to act simultaneously with F 1. Threaded length of Screws The characteristic load-carrying capacity of the screw connection in load case F1 - tension load may be calculated as following, if screws with a threaded length exceeding l ef,ref =100 mm are used: F 1,T,T ef = F1,T,T,ref l ef,ref l 0,9 Where F 1,T,T,ref =16,3 kn is the characteristic load-carrying capacity of the connection with 4 screws with a threaded length of l ef,ref =100 mm.