Description

Bernhardt Design Canelle Swivel Armchair: Modern Elegance

Discover the exquisite Bernhardt Design Canelle Swivel Armchair, a stunning piece of modern elegance that will elevate any interior space. This armchair, designed by NoƩ Duchaufour-Lawrance, is now available as a realistic 3D model download on 3DSky. With its sleek lines and contemporary design style, the Canelle Swivel Armchair is a must-have for those seeking to enhance their 3D interior decor.

Impeccable Design and Material Options

The Canelle Swivel Armchair boasts two base options: wood legs or a metallic swivel. Choose from a wide range of material options to suit your style and preferences. Opt for the dark turquoise fabric seat with a metallic swivel base for a bold and eye-catching look, or go for the green fabric seat with wood legs for a touch of natural warmth. Additionally, you can select the gray fabric seat with either a metallic swivel base or black wood legs, offering versatility in design.

Perfect for 3D Interior Design

Whether you are an architect, interior designer, or simply passionate about 3D design, the Canelle Swivel Armchair is an excellent addition to your collection. Its realistic 3D model representation allows you to seamlessly incorporate this elegant piece into your 3D room design projects. Each model is meticulously crafted, ensuring it accurately reflects real-world dimensions, making it easy to envision this stunning armchair in any interior setting.

Working with 3DS Max? Rest assured, our 3D models are compatible and ready to be used in your 3D home design projects. We have made sure to organize the files for easy navigation, with each model and its related objects appropriately grouped and labeled. Previews of the Canelle Swivel Armchair have been created using the powerful Corona renderer in Max 2016.

Should you be using a V-Ray version lower than 3.1, please take note of the materials section BRDF (Microfaset GTR (GGX)). In this case, the section will be empty, and we kindly request you to choose: Blinn as an alternative material option.