The Hybrid SIP Wall System Panel combines the strength and performance of cold-formed steelframing with the superior insulation properties of expanded polystyrene (EPS).All steel used in theHybrid SIP Wall System Panel is galvanized to industry standards to preventrust.Why this innovation?Builders today are faced with more challenges than ever before:*Energy efficient- Heating and cooling bills can be reduced drastically.*Comfort- Structures are less "Drafty" and provide enhanced sound insulation.*Lower Insurance premiums.*Potential increased return on investment for property owners.*Environmentally friendly, made from recycled materials.*Peace of mind, knowing that they built their structure with a sustainablebuilding solution.This innovative technology virtually eliminates the transfer of temperaturefrom one side to theother side. Creating a thermal gap throughout the entire wall or structure.The result is a thermallyefficient, high-performance building technology that is stronger than brick orconventional wood,lightweight, energy efficient and economical.With the development of the Hybrid SIP wall system, Jeffrey Black has createda cost- effective,energy-efficient and structurally superior building alternative toconventional wood framing, insulationand sheathing.(we replace all three of these processes, inspections and wastein one simple step).Panelscome in almost any size shape or design. They are shipped in 4'- 10' sectionswideby however tall yourwalls are. Thickness of walls come in anywhere from a 2" up to 12"or greaterif so desired. (a 4'x 8'x6" thick panel only weights approximately 40 lbs.)A prefabricated, pre-engineered expandable polystyrene solid core and steelreinforced exoskeleton wallpanel for building construction. Comprising a rectangular, tetragonal body ofexpandable polystyrenefoam having two opposing primary structural studs securely bounded on itsinterior and exteriorembodiment and on its end by two parallel end caps at least two light gaugemetal studs in the exteriorprimary wall surface body, and two light gauge metal studs in the interiorprimary wall surface body,each stud having a c-shape body with a very specialized face, leg and hemdesign. The width of the wallpanel between the two primary wall surfaces being three times greater than theleg of the studs, theexpandable polystyrene foam extending into the central cavity of the stud tosecure the stud to the body,The hem return inside the wall of each stud strengthens the entire embodimentof the structure andcompliments the physical properties of both elements. Together forming aportion of the same primarywall surface of the interior body, also one stud is positioned at the opposingside on the exterior wall.The distance between each of the studs, from the center to center of the studsis 24" O.C. being astandard building construction center-to-center distance for studs, therectangular tetragonal body ofExpandable Polystyrene foam having a tongue portion at each of its twoparallel end walls, the tongueportion having a width equal to the width of the studs and adapted to be andreceive each wall by andsecuring the opening of the building construction track to form a structuralwall.The present invention generally relates to building commercial or residentialload bearing exterior wallsystems. In particular, the present invention relates to a solid EPS core wallpanel with a steelexoskeleton infused into the foam panels for residential or commercial walls.Pre-manufactured andengineered in a factory. that exhibit improved strength, carbon footprint, and100% recyclable with lessweight, simplistic design and installation, and highest efficiencycharacteristics available. The presentinvention is directed to polystyrene solid core & metal exoskeleton(Structural) wall panels. Inparticular, lightweight, thermal efficient and sound insulating, sustainableunsurpassed energy savingwall system.. The panels, optionally, often and preferably, also constitutestructural supportingmembers.Design Standards:*American Iron and Steel Institute (A.I.S.I.) "North AmericanSpecification forthe Design of Cold-Formed Steel Structural Members," 2001 with 2004 amendments.*American Welding Society (A.W.S.) D.1.3, 1998 "Structural Welding Code-SheetSteel."*American Society for Testing and Materials (A.S.T.M.)
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