Rose Garden Botanical Wax Melts
Scent Description
Sit within our wonderful rose garden, taking in the beautiful sights of the sun setting over the botanical blooms. Your feeling restful, breathing in all the opulent rose aromas - simply a glorious evening.
Our Rose Garden fragrance was inspired by the designer 'Rose Prick' scented perfume. Built around a delightful triology of fresh roses. Be rest assured, this is no basic floral scent, it's alive with sichuan pepper, turmeric and tonka bean.
Mood - Fierce and Beautiful
Top notes - Sichuan pepper + Turmeric
Middle notes - May rose, Turkish rose + Bulgarian rose
Base notes - Patchouli + Tonka bean
A box contains 6 x 15g round botanical wax melts. Each wax melt is handcrafted and made with a natural coconut blend wax which is non toxic and sustainable. Blended with fine fragrance oils with packaging completely plastic free.
Our wax melts are vegan friendly and cruelty free. Packaged in a luxury and elegant box that is PEFC certified and completely plastic free.
Weight - Appox 90g.
Each wax melt will give you approx 8-10 hours of fragrance.
Subscribe and save with our monthly wax melt subscription box for just £13.95!
How to use
Pop one wax melt into the top bowl of your tea-light wax burner. Light an unscented 4 hour tea-light and place underneath. The wax will slowly start to melt and release a beautiful fragrance into the room with gorgeous botanicals swimming around.
Our wax melts can also be used within an electric wax melter.
CLP - Classification, Labelling and Packaging / Safety Information
Warning: May cause an allergic skin reaction. Harmful to aquatic life with long lasting effects. Avoid breathing vapour or dust. Avoid release to the environment. Wear protective gloves/eye protection/face protection. IF ON SKIN: Wash with plenty of soap and water. If skin irritation or rash occurs: Get medical advice/attention. Dispose of contents/container to approved disposal site, in accordancewith local regulations. Contains AMYL CINNAMAL. May produce anallergic reaction.