How are Freestanding Baths designed to be easy to clean? What are the special features of the construction and material selection of the bathtub that can reduce the adhesion of stains and dirt?
Freestanding Baths are designed to be easy to clean mainly through the following aspects:
Simple design: Freestanding Baths are often designed to avoid too many complex elements and corners, which can reduce the hiding places for stains and dirt. Its design is similar to furniture, with smooth lines and no excessive edges and gaps, which is easy to clean.
Material selection:
Glazed porcelain or glazed ceramic: These materials have smooth surfaces, are not easy to adhere to stains and dirt, and are easy to clean. Glazed porcelain or glazed ceramic floor tiles have fewer open pores than other tiles, so they will not breed bacteria.
Antibacterial materials: Some high-end Freestanding Baths may use antibacterial materials, which can reduce the growth of bacteria on the surface of the bathtub and keep the bathtub clean and hygienic.
Scale prevention:
Use a water softener: A water softener can remove minerals such as calcium and magnesium in the water and reduce the formation of scale on the surface of the bathtub.
Control water temperature and pH value: Neutral or slightly alkaline water is more beneficial for bathtub maintenance and can reduce scale formation.
In the construction and material selection of bathtubs, the following special features can reduce the adhesion of stains and dirt:
Bottom design: Some Freestanding Baths consider the convenience of drainage and cleaning in the bottom design, such as using a gentle slope design to enable water to drain quickly and reduce the retention of water and stains.
Edge treatment: Smooth edge treatment without sharp corners can reduce the accumulation of dirt and the difficulty of cleaning.
Material selection: In addition to the glazed porcelain or glazed ceramics mentioned above, some high-end bathtubs also use durable and easy-to-clean materials such as stainless steel or composite materials.