Product Technical Guides : US-EN Cast-In Anchor Channel Fastening Technical Guide | Page 218

1. Anchor Channel Systems 2. HAC Portfolio 3. HAC Applications The general design of HAC and HAC-T is based on ICC ESR- 3520. The design theory of rounded headed anchors is presented in chapter 7. This section provides additional design information for applications outside the scope of AC232 and therefore ESR-3520 such as corners and parallel channels. 5. Base material 6. Loading not depend on the concrete and therefore, the steel strengths of HAC and HAC-T are based on ESR-3520. This section provides guidelines to determine the concrete strengths of anchor channels for applications outside the scope of AC232. The design methodology of such applications is based on applicable provisions and principles of AC232. Table 9.2.1 summarizes the design methodology for each potential failure mode of HAC and HAC-T for intermediate, corners, and parallel anchor channels applications. The anchor channel design encompasses the verification of the steel and concrete at the anchorage zone. For conditions outside the scope of AC232, it is only the concrete failure mode that are excluded. The steel strengths of the anchor channel do Shear (ΦV n,y ) 8. Reinforcing Bar Anchorage 9. Special Anchor Channel Design Concrete Steel Concrete Concrete 12. Instructions for Use 14. Design Example 13. Field Fixes Tension design model Failure mode Symbol HAC & HAC-T Intermediate Corners Parallel channels Anchor ΦN sa ESR-3520 ESR-3520 ESR-3520 Anchor and channel connection ΦN sc ESR-3520 ESR-3520 ESR-3520 Channel lip ΦN sl ESR-3520 ESR-3520 ESR-3520 ΦM s,flex ESR-3520 ESR-3520 ESR-3520 Channel bolt ΦN ss ESR-3520 ESR-3520 ESR-3520 Pullout ΦN pn ESR-3520 ESR-3520 ESR-3520 Side-face blowout ΦN sb ESR-3520 ESR-3520 ESR-3520 Concrete breakout ΦN cb ESR-3520 AC232 principles AC232 principles Bending of channel Tension design model Shear (ΦV n,x ) Steel 11. Best Practices Table 9.2.1 — D esign methodology for all potential failure modes of HAC and HAC-T for common applications Failure mode Steel 10. Design Software Symbol HAC & HAC-T Intermediate Corners Parallel channels ΦV sl,y ESR-3520 ESR-3520 ESR-3520 Anchor ΦV sa,y ESR-3520 ESR-3520 ESR-3520 Anchor and channel connection ΦV sc,y ESR-3520 ESR-3520 ESR-3520 Channel bolt ΦV ss ESR-3520 ESR-3520 ESR-3520 Channel bolt ΦV ss,M ESR-3520 ESR-3520 ESR-3520 Concrete edge breakout ΦV cb,y ESR-3520 AC232 principles AC232 and ACI 318 principles Pryout ΦV cp,y ESR-3520 AC232 principles AC232 principles Tension design model HAC & HAC-T Intermediate Corners Parallel channels Anchor ΦV sa,x ESR-3520 ESR-3520 ESR-3520 Anchor and channel connection ΦV sc,x ESR-3520 ESR-3520 ESR-3520 Channel bolt and channel connection ΦV sl,x ESR-3520 ESR-3520 ESR-3520 Channel bolt ΦV ss ESR-3520 ESR-3520 ESR-3520 Channel bolt ΦV ss,M ESR-3520 ESR-3520 ESR-3520 Concrete edge breakout ΦV cb,x ESR-3520 AC232 principles AC232 and ACI principles Pryout ΦV cp,x ESR-3520 AC232 principles AC232 principles Superposition of tension and shear loads (up to 5 interaction equations) Symbol 1 1  AC232 based indicates product has been tested in accordance to AC232 testing protocols for that specific failure mode and the design is based on applicable provisions and/or fundamentals of AC232 and/or ACI 318. 2 AC232 and ACI 318 based indicates the analysis of that specific failure modes is in accordance to the applicable ACI 318 provision. IMPORTANT! Failure analysis modes evaluated follow ACI 318-14, chapter 17. This DOES NOT include evaluating the base material (e.g. edge-of-slab) capacity to resist compressive forces generated by the fixture. The engineer must ALWAYS verify the base material (e.g. edge-of-slab) design is capable of resisting the applied loading. For additional information, please contact Hilti at [email protected] 218 Cast-In Anchor Channel Product Guide, Edition 1 • 02/2019 Failure mode Channel lip Tension (ΦN n ) 7. Anchor Channel Design Code 9.2 — HAC AND HAC-T DESIGN 4. Design Introduction 219