Innovative Waste-Reducing Chairs
Annabella Hevesi's Peach Easy Chair Boasts Innovative Joints
Annabella Hevesi has developed a chic and comfortable chair that also has a sustainable construction. The silhouette is versatile as it can be employed in both residential and commercial settings. Titled the 'Peach Easy Chair,' the piece features an innovative joint construction that Annabella Hevesi was testing out. The mechanical joint directly influences how the foam of the chair is shaped—the joint does not cut or cast the material. Instead, the foam was tufted with a new technique that the designer developed. This strategic design approach both reduces waste (which is common when you cut the material), as well as makes the manufacturing process more affordable (which is usually not the case when you cast the materials). The well-designed and waste-reducing Peach Easy Chair is available in white and grey colorways.
Trend Themes
1. Sustainable Furniture Design - Opportunity to innovate by designing furniture with sustainable construction techniques such as innovative joints that reduce waste.
2. Waste-reducing Manufacturing Techniques - Opportunity to innovate by developing new manufacturing techniques that reduce waste and make the manufacturing process more affordable.
3. Versatile Furniture Silhouettes - Opportunity to innovate by designing furniture with versatile silhouettes that can be employed in both residential and commercial settings.
Industry Implications
1. Furniture Manufacturing - Opportunity for furniture manufacturers to incorporate sustainable construction techniques and waste-reducing manufacturing processes into their products.
2. Commercial Interiors - Opportunity for commercial interior designers to select and incorporate versatile furniture silhouettes that reduce waste and have sustainable construction techniques.
3. Sustainability Consulting - Opportunity for sustainability consultants to advise manufacturers and designers on developing and implementing sustainable construction techniques and waste-reducing manufacturing processes into their products.