Pemberly Row 29" Acrylic Metal Bar Stools, Clear Finish, Contemporary Design, Set of 2, 39.75" H x 18" W x 16" D, Lucite Construction for Modern Bar Height Tables or High Counter Seating
(4.4)
No Reviews
#commissionsearned
Specifications
- Product Dimensions: 16"D x 18"W x 39.75"H
- Color: Clear
- Frame Material: Plastic
- Seat Material Type: Plastic
- Brand: Pemberly Row
The Pemberly Row 29" Acrylic Metal Bar Stools offer a blend of contemporary elegance and functional design, making them an appealing choice for modern interiors. Crafted from robust 1/2-inch thick clear acrylic, these bar stools feature a sleek chromed steel base that enhances their minimalist aesthetic. Standing at 39.75 inches high, with a seat height of 29 inches, they are perfectly suited for standard bar-height tables and high counters, providing stylish seating options for casual dining or entertaining.
Features
- Material Composition: Durable combination of acrylic and metal ensures lasting strength and stability for everyday use.
- Functional Bar Stool Design: With a defined seat height of 29 inches, this stool is ideal for tall counters and bar-height surfaces.
- Translucent and Modern Style: The clear acrylic seat combined with a chromed metal frame complements various minimalist and contemporary interior settings.
- Dimensions and Fit: Measuring 39.75 in H x 18 in W x 16 in D, these stools fit seamlessly into kitchens, dining areas, and smaller spaces.
- Assembly Requirement: Assembly is required for setup; follow included instructions carefully to ensure proper installation and functionality.
Pros
- Lightweight design makes it easy to move around the home.
- Clear finish adds versatility and complements diverse color palettes and décor styles.
- Durable materials offer long-lasting use without compromising on style.
- Contemporary design enhances the aesthetic appeal of any modern kitchen or bar area.
Cons
- Assembly required which may be a downside for those looking for ready-to-use furniture.
- Clear acrylic may show scratches or fingerprints more readily than traditional materials.
