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Home > Testimonials > Advance Design success story: Sentier des Cimes – LH2

Advance Design success story: Sentier des Cimes – LH2

Sentier des Cimes - LH2 : The Entry Tower on Sentier des Cimes project consists of a 1.5 km pedestrian footbridge. The footbridge is suspended at treetops from which comes the name “Tree Top Walk”. It also includes two towers, a main observation tower standing at approximately 40 meters (120 feet) and a 5-story elevator, 25 meters high (82 feet). The Tree Top Walk project is a walkway primarily composed of wooden “BC fir” decking supported by glulam beams. On average the walkway is 10 meters high, and reaches over 17 meters at its highest point giving a treetop point of view to the hikers.

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Advance Design success story: Sentier des Cimes – LH2

Company: LH2 – Sentier des Cimes

Project submitted by Marc-Olivier Beaudry, LH2 Services Professionnels, Québec, Canada

Project 

The Entry Tower on Sentier des Cimes project consists of a 1.5 km pedestrian footbridge. The footbridge is suspended at treetops from which comes the name “Tree Top Walk”. It also includes two towers, a main observation tower standing at approximately 40 meters (120 feet) and a 5-story elevator, 25 meters high (82 feet).
The Tree Top Walk project is a walkway primarily composed of wooden “BC fir” decking supported by glulam beams. On average the walkway is 10 meters high, and reaches over 17 meters at its highest point giving a treetop point of view to the hikers.

The elevator tower is a concrete core that houses an elevator and its proper operating equipment. On the exterior of the core there are winding stairs built of “BC Fir” glulam. The primary glulam frame is secured to the concrete core by a horizontal bracing system composed of glulam members and steel connections. The Frame and core of both towers are supported using raft concrete foundations of 1,2 meters thickness.

Meanwhile the walkway sits on “BC Fir” lumber posts of approximately 500mm in diameter, assembled to mat foundations and secured to rock anchors to prevent uplift.

User benefits:

The main benefits obtained during the design process with Graitec Advance Design software are as follows:

  • Advance Design was particularly helpful in this “Design-Build” type project because of the ease and speed of modeling. It allowed us to revise the model in real time during the full course of the project.
  • The non-linear analysis features with the Tension/compression members and planar support tool gave us the opportunity to evaluate the overturning stability of the mat foundations, evaluate if the design was at risk of uplift, and finally to evaluate the peak pressure generated on the soil in regard to the bearing capacity.
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