Women's Satin Elegant Pearl Pointed Toe Ballet Flats Lightweight Soft Slip on Comfortable Non-Slip Dress Shoes for Bridal Prom Wedding Work Dress
Sole material: RubberOuter material: SilkClosure type: Pull-OnWater resistance level: Not Water Resistant[Satin Elegant Pearls] The satin upper has a silky texture and a soft luster, and is decorated with arc-shaped pearls, which is exquisite and romantic. The pointed toe design modifies the foot shape, making the feet look slender in elegance.[Convenient One-step Slip] The overshoe-style wearing design does not require lacing or adjustment, just lift your feet and put them on, and walk away. Adapting to the fast-paced life, when rushing to the wedding or commuting to the workplace, you can quickly change shoes without panic, taking into account fashion and efficiency, so that you can always stay calm and easily cope with daily and important occasions.[Non-slip low thick heels] The low thick heels of about 0.78 inches are stable and not tiring to walk, and the leg lines are lengthened without losing comfort. The rubber outsole has clear patterns, is non-slip and wear-resistant, and can grip the ground steadily whether it is the smooth floor of the wedding hall or the tiled floor of the office building in the workplace.[Suitable for multiple occasions] From the bride's wedding to the prom party dress, it has become the eye-catching highlight of the whole scene; to the workplace commuting and wearing work clothes, this pair of shoes can be perfectly integrated. With the characteristics of four-season adaptability, you can wear it with a skirt in spring, pants in summer, windbreaker in autumn, and coat in winter. One pair of shoes can be worn all year round, and the price-performance ratio is very high.[Notes] Please select accurately according to the size chart when purchasing to ensure comfortable wearing. Use a soft brush dipped in mild detergent to brush the satin lightly, and do not vigorously damage the gloss; use a soft cloth to gently wipe the pearls to prevent scratches and oxidation.