Churchill Studio Prints Raku Square Plates Quartz Black 215mm (Pack of 12)
Product Description
The Churchill Studio Prints Raku range offers a square plate format in a deep quartz black finish, with a subtly textured surface pattern that gives each piece a considered, craft-influenced...
Specifications
- Box quantity
- 12
- Colour
- Black
- Dimensions
- 215(W) x 215(D)mm
- Dishwasher safe
- Yes
Downloads
Product Description
The Churchill Studio Prints Raku range offers a square plate format in a deep quartz black finish, with a subtly textured surface pattern that gives each piece a considered, craft-influenced appearance. At 215mm across, these sit comfortably as a starter or dessert plate in most cover layouts, and the square format lends itself to structured plating styles where presentation is part of the offer.
Churchill's vitrified ceramic construction is well established in commercial dining environments. The material handles the thermal cycling of a busy service — moving from dishwasher to pass to table — without the crazing or fading that can affect lesser tableware over time. The five-year edge chip warranty reflects the confidence Churchill places in the durability of this range under regular commercial use.
From an operational standpoint, the Raku plates offer a few practical advantages worth noting:
- Compatible with commercial dishwashers, reducing turnaround time between covers
- Microwave and oven safe, adding flexibility during service
- Consistent glaze finish across the pack supports uniform table presentation
- Dark colourway helps conceal minor surface marks between washes
- Square profile stacks efficiently, making storage and transport straightforward
These plates are well suited to restaurants, bistros, hotels, and event caterers where a bold, dark aesthetic supports the overall dining experience. They work particularly well under plated desserts, small sharing dishes, and starters. For operations running high cover volumes, Churchill produces this range in larger pack formats and alternative colourways if a different look or quantity is needed.
If you're building out a tableware range and want to discuss how the Raku collection fits alongside other pieces in the Studio Prints line, our team is happy to help you work through the options.
Key Features
- 215mm square ceramic plate in a deep quartz black glaze finish
- Vitrified ceramic body rated for heavy commercial dishwasher use
- Five-year edge chip warranty across the full range
- Oven and microwave safe for flexible service applications
- Supplied in a pack of 12 for consistent table presentation
Operational Benefits
- Dark finish creates a striking visual contrast for plated dishes
- Chip-resistant construction reduces replacement costs over time
- Dishwasher compatibility supports faster cover turnaround during service
- Square format suits structured plating and modern presentation styles
- Uniform batch finish ensures a consistent look across the dining room
Specifications
- Box quantity
- 12
- Colour
- Black
- Dimensions
- 215(W) x 215(D)mm
- Dishwasher safe
- Yes
- Furniture shape
- Square
- Material
- Ceramic
- Microwave safe
- Yes
- Warranty
- 5 Years Edge Chip
- Weight
- 920g
Downloads
Frequently Asked Questions
- Yes, the Churchill Raku plates are designed for commercial dishwasher use. The vitrified ceramic construction is resistant to the repeated thermal cycling and detergent exposure that commercial machines produce, making them a practical choice for high-turnover operations.
- At 215mm, these plates sit comfortably in a starter or dessert role within most cover layouts. They can serve as a main plate in a lighter or tapas-style menu, though operators running full à la carte service may prefer a larger format for main courses.
- The reactive glaze finish is fired into the ceramic rather than applied as a surface coating, which means it does not peel or fade with regular use. Churchill backs the range with a five-year edge chip warranty, which gives a reasonable indication of the durability expected under normal commercial conditions.