new super strong
Short stroke and high tension
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Screen stress, namely, strain curves (SS curves), show strong screen elasticity, and it also explains such behaviors as changes over time when a variety of mechanical actions is applied during or after fabric tensioning. As both the diameters and widths of the SS curves are uniform, the elongation and stretching are the same and the both tension and opening are uniform. In addition, when the elasticity coefficient of the screen is high, there is less elongation during fabric tensioning, and thus tension can be easily obtained, and there is also less change over time after fabric tensioning, resulting in a plate with excellent dimensional stability. |
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High strength Both the diameters and latitudes of the SS curves of new super strong are uniform, and as new super strong has tremendous strength, in excess of about 20% over SUPER STRONG, it can achieve fabric tensioning through high tension, which you have never experienced before. Moreover, plate breakage in each process decreases and productivity is significantly enhanced. |
SS curves of new super strong and SUPER STRONG
| Testing method: |  |
JIS L1096-1999 General Fabric Testing Method |
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Test specimen width: 5cm | |
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Gripping distance: 20cm | |
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Tensile strength: 10cm/min | |
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Constant extension rate type IN = 0.101972kgf | |
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Testing equipment: Shimazdu Autograph AG-500B |
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High elasticity coefficient new super strong has a high elasticity coefficient, which is well over that of SUPER STRONG. Therefore, there is less elongation at fabric tensioning, and it is easy to obtain high tension. |
Elasticity coefficient of new super strong and SUPER STRONG
Relationship between tension, air pressure, and elasticity at fabric tensioning
Using an air stretcher, a mark of 50 cm is set up in the center, the air pressure is raised in the lateral direction, and the elongation and tension at that time are measured in comparison to the SS curves. As a result of comparatively measuring the actual elongation with the SS curves, there exists a relationship as shown in the following figure, and it is confirmed that those values correspond with the actual measured values.These are experimental values.
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Minimal change over time new super strong causes less change in tension after fabric tensioning when compared with SUPER STRONG, and it maintains a remarkably stable value. |
Change over time of new super strong and SUPER STRONG after fabric
The data and figures described on this Web site are test values and not guaranteed values.
