Rose and Lime Luxury Soap. All Natural, Cold Process, Old School, Handmade Soap


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Rose and Lime Luxury Soap

Our handmade, small batch, cold process soap is pure old school luxury. Made using the time-honoured method with purified water, oil and lye, this process of soapmaking has been employed for thousands of years, and remains unchanged since the time of Babylon, in 2800BC.

This luxury batch of soap contains the following ingredients:
Saponified Coconut Oil, Almond Oil, Olive Oil, Castor Oil, Shea Butter, Lime Oil and Rose Oil

Three reasons to switch to cold process soap.

• This soap is rich and creamy with approximately 35 grams of Cocoa Butter in each bar. The major oil is coconut which is the best lathering of all oils. It is the only vegetable oil which lathers in seawater, for example. Unlike supermarket soap, this will moisturise your skin, rather than dry it out.

• Supermarket soap is made from chemicals that you do not want on your skin or being absorbed into your body. They will only temporarily make your skin feel soft, and long-term use will cause dryness, itching and flaking. (1)

Handcut - minimum weight 150g

INTERNATIONAL ORDERS: For international orders, please send us a message and we'll organise it for you.

1) Many of these chemicals are carcinogenic and bio-accumulative, they never leave your body once absorbed. For example, nearly all commercial soap is made using melt and pour chemical process and contains Methylisothiazolinone, a chemical proven to cause neurodegenerative disorders and seizures. This is just one of the dodgy ingredients in your storebought soap, there are many more. See In Vitro Neurotoxicity of Methylisothiazolinone, a Commonly Used Industrial and Household Biocide, Proceeds via a Zinc and Extracellular Signal-Regulated Kinase Mitogen-Activated Protein KinaseDependent Pathway 2) Hammer K. A., Carson C. F., Rileya T. V. Effects of Melaleuca alternifolia (tea tree) essential oil and the major monoterpene component terpinen-4-ol on the development of single- and multistep antibiotic resistance and antimicrobial susceptibility. Antimicrobial Agents and Chemotherapy. 2012;56(2):909–915. doi: 10.1128/aac.05741-11.

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