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1. Unique molecular structure and bubble deformation
Memory foam, as a polyurethane foam, contains a large number of tiny bubbles in its molecular structure. When the weight of the human body is applied to the memory foam, these bubbles will compress and deform to adapt to the shape of the human body. This MEMORY FOAM LUMBAR SUPPORT's deformation process can evenly disperse the pressure and avoid excessive local pressure, thereby reducing the burden on the spine and waist. This characteristic of memory foam enables it to provide personalized support, ensuring that each user can get the most appropriate pressure distribution, reducing discomfort and potential health problems caused by long-term sitting.
2. Slow rebound characteristics and continuous support
The slow rebound characteristics of memory foam are another key factor in its pressure absorption. When the human body leaves the memory foam, it slowly returns to its original shape. This characteristic enables MEMORY FOAM LUMBAR SUPPORT to provide continuous support without losing its shape and elasticity even after long-term use. The slow rebound feature ensures that the memory foam remains stable during use, and can also reduce vibration and impact, protecting the spine and waist from damage. This characteristic allows the memory foam lumbar support to maintain its effect during long-term use, providing users with lasting comfort and protection.
3. Temperature sensitivity and adaptive support
The temperature sensitivity of memory foam provides an additional advantage for its pressure absorption. MEMORY FOAM LUMBAR SUPPORT can change its hardness and softness according to changes in human body temperature. When the body temperature is higher, the memory foam will become softer, better adapt to the shape of the human body, and provide more fitting support; when the body temperature is lower, the memory foam will become harder and provide more stable support. This temperature sensitivity enables memory foam to provide the most appropriate support and protection according to different usage environments and human body conditions.
