We build with cold-formed and light-gauge steel components manufactured to tight tolerances, then coordinate wall, floor, and roof assemblies into a single system — packaged, sequenced, and checked before they ship.
A · B · C — wall panels, floor chassis, roof panels
A · Insulated wall panels — staged for deliveryLight-steel framing, structural sheathing, insulation, air barrier, and facade substrate are coordinated and produced off-site — then delivered as one finished panel, so the wall line is resolved before it reaches the field.
| Framing | Light steel + aluminum |
| Enclosure | Insulation + sheathing |
| Coordination | Openings + facade substrate |
| Delivery | Finished panel assembly |
B · Floor chassis — ready for installA complete floor assembly — chassis, decking, acoustic layer, and service routing — is fabricated to tolerance, tagged, and verified before it leaves the plant. Each chassis lands matched to its place in the building, ready for installation.
| Span | Project-specific |
| Acoustic | Integrated acoustic layer |
| Fire | Rated assembly options |
| Services | Integrated chases |
C · Roof framing — coordinated with the wall lineRoof assemblies are framed, braced, and dimensioned alongside the walls and floors they land on. Labeled profiles arrive aligned to the structure below — ready to set, with no field improvisation.
| Framing | Braced light-gauge steel |
| Fit | Aligned to wall + floor lines |
| Coating | Galvanized steel options |
| Delivery | Labeled + sequenced panels |
A·B·C · Factory to field — set in placeWalls, floors and roofs are designed separately, coordinated together, and produced off-site — then assembled in the field as one system. The result is a clearer path from factory production to site assembly, and a delivery that repeats from project to project.
| Scope | Wall · Floor · Roof |
| Method | Factory to field |
| Coordination | Single coordinated model |
| Outcome | Predictable delivery |
Cinc City moves critical building decisions upstream — coordinating components, suppliers, fabrication, logistics, and quality checks before work reaches the field. The result is a cleaner install sequence, less weather exposure, and fewer site-driven surprises.
Components are planned, labeled, and sequenced before delivery.
Domestic and international production relationships support each project.
Less weather exposure, fewer field variables, cleaner installation.
Assemblies are checked before they move into delivery.
The approved model becomes the basis for engineering, fabrication, sequencing, and install — reducing the translation gaps between design intent and what arrives on site.
Architecture, structure, and MEP are developed in one coordinated model from week one.
Profiles, panels, and assemblies are translated into production information before materials are released.
Panels and chassis are labeled, checked, and sequenced before they move into delivery.
Components arrive matched to the install plan, reducing site decisions and delays.
Fabrication, site work, and delivery sequencing move in parallel — reducing the delays that come from waiting on one trade before the next can start.
Parallel deliveryScope, model, components, and install sequence are coordinated before production — reducing late changes and budget drift.
Priced from the modelCut-to-length components and planned assembly sequences reduce excess material, rework, and field scrap.
Lean fabricationCritical assemblies are produced in controlled environments before they reach the site — reducing weather exposure and field variability.
Less site riskCoordinated panels help control air, water, insulation, and facade substrate performance before installation.
Tested assembliesAssemblies are engineered for code alignment early, so AHJ review becomes part of the delivery path — not a separate fight.
Our edge · permittingEngineered around recognized light-gauge steel standards, with project-specific adaptation for local code, wind, seismic, and occupancy requirements.
Production documentation, quality checks, and release workflows built around repeatable control.
Envelope and material strategies designed to support LEED, energy, durability, and high-performance building goals.
Wall, floor, and roof assemblies documented for required fire, acoustic, and occupancy performance.