Reflective Intermix Glass Beads, used in road marking paint and traffic signs,is important in mantaining visibility of motorist for driving under dim light or bad weather. used in highway ,arrport runway, pavement marking line, zebra crossing in traffice road line, road marking as reflective materials.
Road Marking Beads Reflective are solid, spherical glass beads for use with road marking materials such as Road and Line Marking Paint Water Based, Solvent Based and Thermoplastic.
Solid glass beads for use with road marking compounds, Class A and Class B are high quality glass microspheres resulting from the specialised processing of selected glass culet.
Road Marking Paint Reflective Glass Beads are a major factor in increasing road safety in an economical manner. Thanks to the beads` retro-reflective action at night, a vehicles headlight beam is returned to the drivers eye.
The microspheres not only multiply the visibility of the markings at night, but also increase the markings durability in general. Road Marking Reflective Glass Beads are used as a drop agent and as premix beads for road marking materials.
CHARACTERISTICS:
Increase visibility of road markings at night, High durability.
Intermix Glass Beads Intermix Glass Beads,Intermix Glass Beads For Road Marking,Road Marking Intermix Glass Beads,Traffic Sign Intermix Glass Beads YONGQING BAILUYUAN GLASS PRODUCTS CO.,LTD , http://www.blyglassbeads.com Material Thickness of equal thickness lap
(mm) Roller electrode thickness D and surface width d1
(mm) Electrode pressure
(N) Minimum overlap width L
(mm) Minimum overlap width L2
(mm) Airtight weld High speed welding Medium speed welding Low speed welding Minimum d Standard d Minimum D When d is the minimum value When d is used as a standard value Welding power-on time 3
(cycle number) Rest time
(cycle number) Welding speed
(m/min) Welding current
(A) Welding energization time
(cycle number) Rest time
(cycle number) Welding speed
(m/min) Welding current
(A) Welding energization time
(cycle number) Rest time
(cycle number) Welding speed
(m/min) Welding current
(A) Low-carbon steel 0.4 3.7 5.3 11 2200 7 10 2 1 2.8 12000 2 2 2.0 9500 3 3 1.2 8500 Low-carbon steel 0.6 4.2 5.9 12 2800 8 11 2 1 2.7 13500 2 2 1.9 11500 3 3 1.1 10000 Low-carbon steel 0.8 4.7 6.5 13 3300 9 12 2 1 2.6 15500 3 2 1.8 13000 2 4 1.1 11500 Low-carbon steel 1.0 5.1 7.1 14 4000 10 13 2 2 2.5 18000 3 3 1.8 14500 2 4 1.0 13000 Low-carbon steel 1.2 5.4 7.7 14 4700 11 14 2 2 2.4 19000 4 3 1.7 16000 3 4 0.9 14000 Low-carbon steel 1.6 6.0 8.8 16 6000 12 16 3 1 2.3 21000 5 4 1.5 18000 4 4 0.8 15500 Low-carbon steel 2.0 6.6 10.0 17 7200 13 17 3 1 2.2 22000 5 5 1.4 19000 6 6 0.7 16500 Low-carbon steel 2.3 7.0 11.0 17 8000 14 19 4 2 2.1 23000 7 6 1.3 20000 6 6 0.7 17000 Low-carbon steel 3.2 8.0 13.6 20 10000 16 20 4 2 1.7 27500 11 7 1.1 22000 6 6 0.6 20000 Austenitic stainless steel 0.23 5.0 10.0 1800 7.0 1 1 2.29 6500 1 2 1.52 4800 2 2 1.09 4200 0.29 5.5 11.0 2100 7.5 2 1 2.24 6700 2 2 1.48 5400 3 3 1.08 4800 0.4 6.0 13.0 2700 9.0 2 1 2.16 7600 2 2 1.41 6700 3 3 1.06 6000 0.6 7.0 13.5 3600 11.0 2 2 2.02 10760 2 2 1.31 8600 3 5 1.03 7800 0.8 7.0 14.0 4700 13.0 2 2 1.89 13500 2 3 1.22 10700 3 5 1.0 10200 1.0 7.5 14.0 5700 14.5 3 2 1.79 14500 3 4 1.15 12900 3 6 0.96 12300 1.2 8.0 14.5 6700 15.0 3 2 1.69 15200 3 4 1.09 14000 4 6 0.93 13200 1.6 9.5 15.5 8700 16.0 3 2 1.53 16200 3 5 1.03 15400 4 6 0.86 14800 1.8 10.0 16.0 9700 17.5 4 3 1.47 16500 4 5 1.02 15900 4 8 0.84 15700 2.0 10.5 16.5 10400 17.5 4 3 1.42 16700 4 6 1.02 16300 4 9 0.8 16200 2.6 12.0 18.5 12700 20.0 5 3 1.34 17200 5 6 1.0 16800 5 10 0.7 16800 3.2 13.5 19.5 15000 22.5 5 4 1.27 17800 5 6 0.98 17000 6 13 0.61 17000 4.0 14.5 21.0 18500 25.5 5 4 1.17 18500 5 6 0.95 17300 6 14 0.46 17300
Note: Low carbon steel instructions.
1. The welded steel plate referred to in this table is a soft-washed soft steel plate after hot rolling. The tensile strength is 300-200 MPa, and the surface dirt must be cleaned during welding.
2. The electrode material is R. W. M. A level 2.
1 The shape of the electrode is as shown on the right. 2 The minimum overlap is shown below. 3 Power-on time number should be multiplied by 5/6 when the power supply is 50Hz.
Note: Austenitic stainless steel instructions.
1. Applicable materials are 1Cr17Ni7, 1Cr18Mn9, 0Cr19Ni9, 1Cr18Ni9, 0Cr17Ni12Mo2, 0Cr19Ni13Mo3, 0Cr18Ni11Ti, 0Cr18Ni11Nb stainless steel.
2. The electrode is equivalent to R. W. M. A grade 3 copper alloy.
3. The maximum pressure should be used when welding tensile strength above 1050MPa cold rolled material.
4. The electrode shape and overlap width are the same as those in 1.1.5(1).
5. When welding large workpieces, in order to make the process good, the overlap width L can be increased by 30%, and the welding speed can be reduced to facilitate operation.
6. In order to improve the surface formation of the weld, it is better to use a spherical electrode.
7. Intermittent power-on, AC power 60Hz, when the power is 50Hz, the power-on and rest time should be multiplied by 5/6.