This Pure Silver S999 bracelet boasts a striking Heavy Hammer Design, with 25 grams of pure silver (almost a full ounce!) and intricately hammered top, sides, and bottom surfaces. The thick, heavy design showcases big, noticeable hammer marks, making it a true statement piece of jewelry. 

Each piece is carefully polished for a Bright High Gloss finish. 3/8" wide. This very strong and comfortable band has an overall length of a hefty 7" x 2.5mm thick! 

Simply, bend to adjust! The bracelet comes pre-bent to a circumference width of 2 7/8" x 2" (circumference i.d.) with an opening at the bottom of the bracelet pre-set at 1". The bracelet also comes with comfort rounded ends for effortless on and off. A Very Stylish hammered heirloom. The thick heavy pure silver bracelet sits low on your wrist so it will never get in the way of your shirt or coat sleeves. 

Very High Quality for such an excellent price. A Saint Michaels Jewelry Exclusive.

Wrist shapes vary dramatically from person to person. Some people have round wrists, some people have an oval shape and some have almost a box pattern. Metal bracelets can be formed to the shape of your wrist's pattern. Form it once since metal can become brittle and fracture if bent too far or too often. There is a proper way to put on a bracelet to avoid re-bending your investment each time you wear it:

1. Hold the bracelet with one hand, positioning the opening of the cuff opening facing outward.
2. Slide your wrist through the opening starting at the narrowest part of your wrist by pressing one end of the bracelet on the palm side between your wrist bones pressing deeply into the soft part of your wrist as you gently rotate the bracelet into position.
3. Adjust the placement on your arm or next to your wrist for comfort and style.
4. Remove the bracelet with the same technique that you establish putting it on!

A little more about metal ... Each bend adds internal molecular stress. As you bend metal, the molecules in the metal rub past each other and dislodge. Eventually with each bend you will reach a stress point where all of the molecular bonds are severed and the metal separates.

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