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www.hilti.com <br />Hilti PROFIS Engineering 3.0.88 <br />Input data and results must be checked for conformity with the existing conditions and for plausibility! <br />PROFIS Engineering ( c ) 2003-2023 Hilti AG, FL-9494 Schaan Hilti is a registered Trademark of Hilti AG, Schaan <br />7 <br />Company: <br />Address: <br />Phone I Fax: <br />Design: <br />Fastening point: <br /> | <br />Switchboard Panel <br />Page: <br />Specifier: <br />E-Mail: <br />Date: <br />7 <br />10/10/2023 <br />6 Warnings <br />• The anchor design methods in PROFIS Engineering require rigid anchor plates per current regulations (AS 5216:2021, ETAG 001/Annex C, <br /> EOTA TR029 etc.). This means load re-distribution on the anchors due to elastic deformations of the anchor plate are not considered - the <br /> anchor plate is assumed to be sufficiently stiff, in order not to be deformed when subjected to the design loading. PROFIS Engineering <br /> calculates the minimum required anchor plate thickness with CBFEM to limit the stress of the anchor plate based on the assumptions <br /> explained above. The proof if the rigid anchor plate assumption is valid is not carried out by PROFIS Engineering. Input data and results <br /> must be checked for agreement with the existing conditions and for plausibility! <br />• Condition A applies where the potential concrete failure surfaces are crossed by supplementary reinforcement proportioned to tie the <br /> potential concrete failure prism into the structural member. Condition B applies where such supplementary reinforcement is not provided, or <br /> where pullout or pryout strength governs. <br />• Refer to the manufacturer's product literature for cleaning and installation instructions. <br />• For additional information about ACI 318 strength design provisions, please go to <br /> https://submittals.us.hilti.com/PROFISAnchorDesignGuide/ <br />• "An anchor design approach for structures assigned to Seismic Design Category C, D, E or F is given in ACI 318-19, Chapter 17, Section <br /> 17.10.5.3 (a) that requires the governing design strength of an anchor or group of anchors be limited by ductile steel failure. If this is NOT <br /> the case, the connection design (tension) shall satisfy the provisions of Section 17.10.5.3 (b), Section 17.10.5.3 (c), or Section 17.10.5.3 (d). <br /> The connection design (shear) shall satisfy the provisions of Section 17.10.6.3 (a), Section 17.10.6.3 (b), or Section 17.10.6.3 (c)." <br />• Section 17.10.5.3 (b) / Section 17.10.6.3 (a) require the attachment the anchors are connecting to the structure be designed to undergo <br /> ductile yielding at a load level corresponding to anchor forces no greater than the controlling design strength. Section 17.10.5.3 (c) / Section <br /> 17.10.6.3 (b) waive the ductility requirements and require the anchors to be designed for the maximum tension / shear that can be <br /> transmitted to the anchors by a non-yielding attachment. Section 17.10.5.3 (d) / Section 17.10.6.3 (c) waive the ductility requirements and <br /> require the design strength of the anchors to equal or exceed the maximum tension / shear obtained from design load combinations that <br /> include E, with E increased by w0. <br />• Hilti post-installed anchors shall be installed in accordance with the Hilti Manufacturer's Printed Installation Instructions (MPII). Reference <br /> ACI 318-19, Section 26.7. <br />Fastening meets the design criteria!