SKU: B07GB8QS8R
Availability: In Stock
$99.44 $139.26
Ross-Simons Italian 14kt Yellow Gold Magnetic Clasp Converter - B07GB8QS8R

  • 14KT GOLD ITALIAN MAGNETIC CLASP CLOSURE FOR JEWELRY – Made in Italy, this 14kt yellow gold magnetic clasp converter attaches in seconds to your existing bracelets and necklaces. The 3/4" clasp makes it a cinch to fasten your jewelry with two strong magnets that snap together effortlessly.

  • EASY TO USE – Simply attach your own bracelet or necklace to the ring on the end of the converter, then attach the clasp to the other side of your piece with the springring closure. You now have an easy-to-use magnetic clasp! Simply pull the powerful magnets apart to open your bracelet or necklace and let them snap back together to quickly fasten your jewelry around your wrist or neck. Perfect for anyone with long nails, arthritis or limited use of fingers, and it won’t catch or pull long hair.

  • MADE IN ITALY – Discover the difference only Italian craftsmanship can make. Beyond silver or gold, Italian jewelry stands out for its unparalleled style and quality. Crafted in luxurious 14kt yellow gold, you can wear this magnetic clasp converter with confidence, knowing it will enhance your existing jewelry and has been made to the highest standards in the world today.

  • THE PERFECT GIFT FOR HER – Whether you know a jewelry lover who struggles with fastening their jewelry, or you just want to make it a little easier for yourself or someone special, the 14kt yellow gold magnetic clasp converter makes a great gift – especially when you pair it with a fabulous gold necklace or bracelet from Ross-Simons! It’s the perfect present for any woman; any occasion.

  • GIFT BOX INCLUDED – Ross-Simons jewelry arrives beautifully packaged in a gift box, ready to delight that special someone. Treat yourself, your mom, your sister, daughter or best friend to the gift of amazing, affordable jewelry. From birthdays to weddings, anniversaries to holidays – nothing compares to the trusted quality, value and tradition of Ross-Simons.