Select Length and Gauge From Dropdown Menu
Balls: 3mm
Implant Grade 23 (Ti6AL4V ELI, ASTM F136) Titanium. It's 3 times stronger than steel, is bio-compatible and lightweight!
New in at Rue B! You asked, we answered: with a fabulous new range of surgical steel and titanium cartilage jewellery for a range of ear piercing and facial piercing styles.
Select Length and Gauge From Dropdown Menu
Balls: 3mm
Implant Grade 23 (Ti6AL4V ELI, ASTM F136) Titanium. It's 3 times stronger than steel, is bio-compatible and lightweight!
Popularly used in many ear piercings and also great for septum piercings.
The high tech PVD (Physical Vapour Deposition) process is a where a coating is deposited onto the jewellery by vaporising Zirconium Nitride (ZrN). This is done by passing a high voltage current through the Zirconium compound emitter in a hot and high pressure kiln.
Although the PVD coating is only a few microns thick due to the way in which the molecules bond to the surface of the product it is very difficult to remove. Therefore the PVD coating process produces a product that is hard wearing and scratch resistant. It’s so good they use it in F1 cars!
Product Name | Gold Zircon (PVD) Externally Threaded Titanium Circular Barbells (CBB) (Horseshoes) (8/10mm) (C145) |
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Product.brand | Rue B body piercing jewellery |
Colour | Gold |
Description | New in at Rue B! You asked, we answered: with a fabulous new range of surgical steel and titanium cartilage jewellery for a range of ear piercing and facial piercing styles. Select Length and Gauge From Dropdown Menu Balls: 3mm Implant Grade 23 (Ti6AL4V ELI, ASTM F136) Titanium. It's 3 times stronger than steel, is bio-compatible and lightweight! Popularly used in many ear piercings and also great for septum piercings. The high tech PVD (Physical Vapour Deposition) process is a where a coating is deposited onto the jewellery by vaporising Zirconium Nitride (ZrN). This is done by passing a high voltage current through the Zirconium compound emitter in a hot and high pressure kiln. Although the PVD coating is only a few microns thick due to the way in which the molecules bond to the surface of the product it is very difficult to remove. Therefore the PVD coating process produces a product that is hard wearing and scratch resistant. It’s so good they use it in F1 cars! |