What are the characteristics of crystal velvet pressure foam fabric
2025-12-15
Crystal velvet pressure foam fabric is a composite functional fabric that combines the soft, skin friendly, and glossy texture of crystal velvet with the elastic support, cushioning, and pressure reducing properties of pressure foam. Its overall characteristics can be divided into three categories: appearance, feel, functional performance, and processing applications, as follows:
Appearance and tactile characteristics
The surface is soft and silky, with a soft luster: The fabric surface is made of crystal velvet material, which has a delicate and skin friendly touch, similar to the smoothness of velvet. At the same time, it has a low-key "crystal like" soft luster, without dazzling light, and a high-end visual texture.
The foam layer rebounds fully, with a fluffy and supportive touch: The bottom pressure foam has a high-density microporous structure, which can quickly rebound after pressing. It feels fluffy but does not collapse, and can feel obvious elastic support when touched, which is different from the soft collapse feeling of ordinary sponges.
The overall thickness is uniform and the texture is thick: After composite, the fabric thickness is moderate and uniform, and it is not easy to have uneven thickness. It has a solid texture when touched and is suitable for making products that require a certain degree of stiffness.
Core functional performance characteristics
Pressure buffering and pressure reducing shock absorption: The elastic structure of pressure foam can effectively disperse external forces, playing a buffering and pressure reducing role. For example, when used for protective gear, it can reduce sports impact, and when used for seat cushions, it can disperse body pressure and relieve sedentary fatigue.
Good elasticity and plasticity: The foam layer provides long-lasting elasticity, making the fabric less likely to deform after stretching, while also being able to fit the contours of the intended area, combining elasticity and shaping effects. It is suitable for making tight fitting protective gear, orthopedic pads, and other products.
Moisture absorbing and breathable, balancing comfort and dryness: The crystal velvet surface has a certain moisture absorbing ability, which can quickly absorb sweat on the skin surface; The microporous structure of the foam layer can promote air circulation, avoid stuffiness and stickiness, and solve the problem of poor breathability of traditional foam fabrics.
Wear resistant and friction resistant, with a long service life: The wear resistance of the crystal velvet surface is better than that of ordinary velvet fabric, making it less prone to pilling and snagging; After compression processing, the foam layer has strong aging resistance and is not easy to collapse and harden after long-term use.
Processing and application advantages
Composite process is stable and not easy to separate: using hot pressing or adhesive composite process, the velvet layer and foam layer are firmly bonded, and it is not easy to separate or peel off after washing or repeated friction, with good washing resistance.
Easy to cut and sew, compatible with various processing equipment: The fabric has strong toughness and is not prone to burrs during cutting. It can be adapted to various equipment such as sewing machines and hot press machines, and can be made into products of different shapes with high processing convenience.
Customizable functions: By adjusting the density and thickness of the foam, as well as the weight and glossiness of the velvet, fabrics with different pressure levels and hand feel can be customized to meet diverse needs.
limitation
Slightly heavier than a single fabric: Due to the double-layer composite structure, it is slightly heavier than pure crystal velvet or pure foam fabrics, making it unsuitable for making products that pursue ultimate lightweight.
High temperature damage: The foam layer has poor temperature resistance, and high-temperature ironing (over 120 ℃) or exposure to sunlight may cause the foam to age and shrink, affecting its elasticity and service life.
Appearance and tactile characteristics
The surface is soft and silky, with a soft luster: The fabric surface is made of crystal velvet material, which has a delicate and skin friendly touch, similar to the smoothness of velvet. At the same time, it has a low-key "crystal like" soft luster, without dazzling light, and a high-end visual texture.
The foam layer rebounds fully, with a fluffy and supportive touch: The bottom pressure foam has a high-density microporous structure, which can quickly rebound after pressing. It feels fluffy but does not collapse, and can feel obvious elastic support when touched, which is different from the soft collapse feeling of ordinary sponges.
The overall thickness is uniform and the texture is thick: After composite, the fabric thickness is moderate and uniform, and it is not easy to have uneven thickness. It has a solid texture when touched and is suitable for making products that require a certain degree of stiffness.
Core functional performance characteristics
Pressure buffering and pressure reducing shock absorption: The elastic structure of pressure foam can effectively disperse external forces, playing a buffering and pressure reducing role. For example, when used for protective gear, it can reduce sports impact, and when used for seat cushions, it can disperse body pressure and relieve sedentary fatigue.
Good elasticity and plasticity: The foam layer provides long-lasting elasticity, making the fabric less likely to deform after stretching, while also being able to fit the contours of the intended area, combining elasticity and shaping effects. It is suitable for making tight fitting protective gear, orthopedic pads, and other products.
Moisture absorbing and breathable, balancing comfort and dryness: The crystal velvet surface has a certain moisture absorbing ability, which can quickly absorb sweat on the skin surface; The microporous structure of the foam layer can promote air circulation, avoid stuffiness and stickiness, and solve the problem of poor breathability of traditional foam fabrics.
Wear resistant and friction resistant, with a long service life: The wear resistance of the crystal velvet surface is better than that of ordinary velvet fabric, making it less prone to pilling and snagging; After compression processing, the foam layer has strong aging resistance and is not easy to collapse and harden after long-term use.
Processing and application advantages
Composite process is stable and not easy to separate: using hot pressing or adhesive composite process, the velvet layer and foam layer are firmly bonded, and it is not easy to separate or peel off after washing or repeated friction, with good washing resistance.
Easy to cut and sew, compatible with various processing equipment: The fabric has strong toughness and is not prone to burrs during cutting. It can be adapted to various equipment such as sewing machines and hot press machines, and can be made into products of different shapes with high processing convenience.
Customizable functions: By adjusting the density and thickness of the foam, as well as the weight and glossiness of the velvet, fabrics with different pressure levels and hand feel can be customized to meet diverse needs.
limitation
Slightly heavier than a single fabric: Due to the double-layer composite structure, it is slightly heavier than pure crystal velvet or pure foam fabrics, making it unsuitable for making products that pursue ultimate lightweight.
High temperature damage: The foam layer has poor temperature resistance, and high-temperature ironing (over 120 ℃) or exposure to sunlight may cause the foam to age and shrink, affecting its elasticity and service life.
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