Product & Installation Engineering
Lattice Room Divider
Custom solid walnut room divider with interlocking lap joints on lattice panels and vertical posts. Engineered for modular assembly, self-alignment, and on-site adaptation. Components lock together during installation, and the assembly features clean lines with minimal visible fasteners.
Engineered a modular room divider prioritizing straightforward on-site assembly and precise alignment without specialized tools.
Designed lap-jointed lattice frames and rail-mounted posts to enable controlled on-site adjustment while achieving a clean, fastener-free appearance.
Prepared detailed component layouts and fabrication instructions, turning design intent into buildable, installable elements.
Applied DFMA and DFI principles to translate a conceptual design into a practical, elegant installation sequence, where the logic of the assembly reinforces the clarity and beauty of the final piece.
Large-Scale Pedestal Dining Table
96" diameter solid white oak dining table engineered for stability, flatness, and long-term structural integrity. The top features concealed C-channel reinforcement and CNC-milled pockets that interface precisely with an internal bracket system, allowing secure attachment while accommodating seasonal wood movement. The pedestal base is formed from two large solid wood half-rounds built from CNC-milled staves around an internal bracket structure, enabling dry-fit testing, maintaining curvature, and producing a seamless exterior form at architectural scale.
Translated the initial design concept into an engineered build plan, resolving structural, material, and fabrication challenges at large scale.
Developed a DFMI-informed manufacturing and assembly strategy, enabling predictable, precise, and elegant construction at large scale.
Anticipated how assembly, wood movement, and structural interactions would impact both function and visual harmony, and designed interventions to support them.
Collaborated with CNC and fabrication teams to translate design intent into precise, buildable components.
