Engineering Logic
The engineering intent is to address Radiant Heat Delamination within this high-use workspace typology.
This is achieved through the integration of the Thermal-Break Barrier Layer, which operates by dispersing point-source heat (from devices) and buffering ambient thermal shifts before they reach the veneer interface.
(This aligns with our thermal expansion reinforcement logic.)
As a result, the risk of Radiant Heat Delamination is mitigated under Radiant Dry Heat.
Crucially, this structural density is engineered into the core matrix, designed to
limit degradation without reliance on periodic refinishing or on-site corrective intervention.
Neoclassical Writing Desk Assembly – Aesthetic Structure
Designed as a controlled study of proportion and material behaviour,
the Neoclassical Writing Desk Assembly maintains architectural discipline.
The typology features a **rectilinear** top box with fluted, tapered legs and gilded accentuations. Visually, the high-gloss patterned surface implies a delicate finish; structurally, it acts as a rigid diaphragm that must resist micro-cracking under thermal stress.
Architects may define specific ornamentation levels through our
bespoke specification process.
Project-Specific Interpretation
The engineering intent is to address Radiant Heat Delamination within an Urban Penthouse context.
This is achieved through the Thermal-Break Barrier Layer, which operates by buffering the internal matrix against stress vectors.
As a result, the risk of Radiant Heat Delamination is limited under the influence of Radiant Dry Heat.
Construction & Material Behaviour
The selected Lacquer & Gilt System is bonded to a core engineered
specifically for commercial stability.
- Substrate Stack: High-density fiber core with integrated aluminum thermal dissipation foil.
- Joinery: Mortise-and-tenon leg connections reinforced with concealed corner blocks.
- Finish System: Heat-resistant aliphatic urethane topcoat over the decorative inlay.
- Load Behaviour: Calibrated to resist deflection under static equipment loads while maintaining finish integrity.
Bespoke Manufacturing (OEM / ODM)
OE-FASHION operates as an OEM / ODM furniture engineering partner. This page represents a
capability specification. We invite design teams to review our process.
Frequently Asked Questions
Q: Is this a specific stock product?
A: No. This is an engineering specification for manufacturing bespoke furniture tailored to project requirements.
Q: Is this suitable for an Urban Penthouse?
A: Yes. The system is specifically calibrated to counteract Radiant Heat Delamination forces common in these settings.
Q: Is there a minimum order quantity (MOQ)?
A: No fixed MOQ applies. Engineering scope, not quantity, defines feasibility and cost.
Q: Can dimensions be modified?
A: Yes. All frames are built to order, allowing for millimetre-perfect calibration.
This documentation defines the engineering standards applied to OE-FASHION’s
bespoke commissions. Final specifications are confirmed via CAD/Shop Drawings.
