The SSB 3 layer forming fabric or "wire" of a paper machine is the continuous belt or belts of mesh screen upon which the paper sheet is formed. Most modern SSB 3 layer forming fabric are comprised of polyester monofilament. The weave pattern and layering of a SSB 3 layer forming fabric is designed to meet stringent requirements of dimensional stability, resistance to abrasion (on the wire side), minimum resistance to drainage, minimum wire-mark, and (sometimes) maximization of retention of fiber fines.
The SSB 3 layer forming fabric or "wire" of a paper machine is the continuous belt or belts of mesh screen upon which the paper sheet is formed. Most modern SSB 3 layer forming fabric are comprised of polyester monofilament. The weave pattern and layering of a SSB 3 layer forming fabric is designed to meet stringent requirements of dimensional stability, resistance to abrasion (on the wire side), minimum resistance to drainage, minimum wire-mark, and (sometimes) maximization of retention of fiber fines.
SSB 3 layer forming fabric woven using 24 harness technology, which allows 6 shaft machine side construction to promote improved life potential. Available with 2 or 3 shaft paper side construction and 3:2, 2:1 or 1:1 weft ratio. Excellent raw material is used to further improve life potential and reduce power consumption. SSB 3 layer forming fabric family has options in 56, 36, 42, 60 styles depending upon application or paper grade. The 56 design benefits from high modules machine direction yarns which promote high FSI without compromise to dimensional stability. Hengta's SSB 3 layer forming fabric should be available to all former types.
SSB 3 layer forming fabric style 36 is a medium coarse weft-bound forming fabric that is used on board and packaging paper machines. The wire design especially features excellent formation, drainage and fabric stability.
Style 36 is an SSB 3 layer forming fabric that is especially suitable for demanding light-weight board and packaging applications which have to meet high paper quality requirements. Due to the unique warp concept of the style, a fine paper side can be combined with an extremely stable machine side. This unique fabric design leads to optimized fabric surfaces for improved paper quality.
The benefits include: High Open Areas for Fast Dewatering Performance, Cleaner Headbox Operation, reduce wear on dewatering element and Improved Sheet Formation, Better Mechanical Retention Leading to Higher FSI, High Wear Volumes Ensuring Excellent Fabric Life, Outstanding Fabric Stability, Good Guiding Stability on Demanding Applications.
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