Geoffrey Packer
Stair Designer — Eastbourne, United Kingdom
Full Size (highres_width x highres_height)
Carbon Fibre
Full Size (highres_width x highres_height)
Carbon Fibre
Full Size (highres_width x highres_height)
Carbon Fibre
Full Size (highres_width x highres_height)
Carbon Fibre
Full Size (highres_width x highres_height)
Carbon Fibre Spiral
Full Size (highres_width x highres_height)
Carbon Fibre Spiral
Full Size (highres_width x highres_height)
Carbon Fibre Spiral v1.0 - Spiral staicase with ultra thin carbon treads, stainless steel pole and handrail. Glass panels form the balustrade.
Full Size (highres_width x highres_height)
Carbon Fibre Spiral v1.0 - Spiral staicase with ultra thin carbon treads, stainless steel pole and handrail. Glass panels form the balustrade.
Full Size (highres_width x highres_height)
Carbon Fibre Spiral v1.0 - Spiral staicase with ultra thin carbon treads, stainless steel pole and handrail. Glass panels form the balustrade.
Full Size (highres_width x highres_height)
Carbon Fibre Spiral v2.0 - updated version with a large diameter pole to accentuate the tread thickness. Offset handrail on stainless steel brackets.
Full Size (highres_width x highres_height)
Carbon Fibre N-Stack - Extremely thin treads bend at ends to form stringers. Stainless steel fixings connect the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre N-Stack - Extremely thin treads bend at ends to form stringers. Stainless steel fixings connect the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre N-Stack - Extremely thin treads bend at ends to form stringers. Stainless steel fixings connect the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre C-Stack - Extremely thin treads bend at ends to form treads and riser. Stainless steel bullets fix the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre C-Stack - Extremely thin treads bend at ends to form treads and riser. Stainless steel bullets fix the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre C-stack - Extremely thin treads bend at ends to form treads and riser. Stainless steel bullets fix the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre C-Stack - Extremely thin treads bend at ends to form treads and riser. Stainless steel bullets fix the glass to the carbon fibre.
Full Size (highres_width x highres_height)
Carbon Fibre N-Stack v2.0 - Extremely thin treads bend at ends to form stringers. Stainless steel balusters and midrails form the balustrade.
Full Size (highres_width x highres_height)
Carbon Fibre N-Stack v2.0 - Extremely thin treads bend at ends to form stringers. Stainless steel balusters and midrails form the balustrade.
Full Size (highres_width x highres_height)
Carbon Sine Stair - Glass and carbon fibre stair with stainless steel fixings. Carbon is amazing isn't it! Could not be made with any other materials
Full Size (highres_width x highres_height)
Carbon Sine Stair - Glass and carbon fibre stair with stainless steel fixings. Carbon is amazing isn't it! Could not be made with any other materials
Full Size (highres_width x highres_height)
Carbon Sine Stair - Glass and carbon fibre stair with stainless steel fixings. Carbon is amazing isn't it! Could not be made with any other materials
Full Size (highres_width x highres_height)
Carbon Sine Stair - Glass and carbon fibre stair with stainless steel fixings. Carbon is amazing isn't it! Could not be made with any other materials
Full Size (highres_width x highres_height)
Carbon Sine Stair - Glass and carbon fibre stair with stainless steel fixings. Carbon is amazing isn't it! Could not be made with any other materials
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