SIP Fishing Retreat Ennis MT
Location: Ennis, MT
|Project Type:||Commercial, Other Commercial|
|Manufacturer:||Premier Building Systems|
|Builder:||Martel Construction Inc|
|Design Professional:||Cushing Terrell|
|HERS/EUI Index Score:|
|ACH50 - Blower Test Results:|
This building which has been named the Madison Lodge serves as the Main Lodge at the Madison Valley Ranch which is a destination experience for those with a passion for fly fishing, fine dining, and beautiful accommodations. The Madison Lodge has a commercial kitchen, pro shop, retail space, flexible meeting rooms, 6 guest suites, large group dining room, bar & lounge, and entertainment spaces.
SIP benefits for this job:
This project replaced their old Main Lodge on the site. From demolition to completion this project was done in only 8.5 months. This project would have normally been a 14 month build, but the owner did not want to lose a season so we developed a plan to fast track the project. SIPS enabled us to greatly reduce construction durations and costs. In addition we were able to dry-in the building much faster while providing a higher performing structure over conventional framing methods.
SIP wall thickness: 6 1/4" EPS
SIP roof thickness: 12 1/4"
Benefits of using SIPs on this project. Did SIPs help save time, labor, construction costs, or energy?
In addition to the immense savings on schedule, the use of SIPS greatly reduced the lumber consumption and waste on this project versus traditional stick framing. Big Sky R Controls manufacturing methods allow for far more material optimization through panel nesting during the manufacturing process. The rapid and uncontrolled lumber price increases hit right when we started this project. Big Sky R Control had a purchase order for this project so they had already secured the integral panel lumber and raw goods to build this project which avoided thousands and thousands of dollars in material escalation charges. The labor savings in the field continued to benefit this project as the structure was able to be erected in roughly 30% less time.
Innovative design elements or structural engineering involved:
Pretty standard - custom timber trusses.
• Exterior was a cement siding meant to create the allusion of logs and to protect against fires...noncombustable.
• Holdowns in walls that tied floor systems together (not a great example though as this required significant lumber to be added to the
walls in these locations)
• LVL lumber was laminated into some walls for roof ledger attachment so that no hardware was visible
• Roof panels had engineered lumber added to specific locations so that trusses could hide the un-even ridge line