Additional information
Size | 308 0.8 5kg, 308 0.9 5kg, 316 0.8 1kg, 316 0.9 1kg, 316 0.8 5kg, 316 0.9 5kg |
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Size | 308 0.8 5kg, 308 0.9 5kg, 316 0.8 1kg, 316 0.9 1kg, 316 0.8 5kg, 316 0.9 5kg |
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SPECIFICATIONS
Power Supply 1-220/230/240 ± 10%
Frequency 50/60Hz
AC TIG DC TIG MMA
Input Power 4.3kW 3.8kW 5.7kW
Input Current 15/30A 15/27A 15/41A
Duty Cycle
40o
C 10min
200A 30%
155A 60%
120A 100%
170A 30%
140A 60%
110A 100%
No Load Voltage 52 V
Welding Current 10A – 200A 10A – 170A
Down Slope 0 – 10 S
Post Flow 1 -10 S
Pulse Frequency 0.5 – 100 HZ
AC Frequency 60 HZ
Pulse Width Range 5 – 95 %
Efficiency > 85%
Net Weight 9.2kg
Dimensions 410mm x 146mm x 278mm
Insulation Class H
Protection Class IP23
Cooling Auto Fan
SPECIFICATIONS
Power Supply 90V – 275V
Frequency 50/60Hz
Input Power 7.3 kW
Input Current 38 A
Duty Cycle
40o
C 10min
250A @ 15%
125A @ 60%
100A @100%
No Load Voltage 68V
Welding Current 40A – 250A
Welding Voltage 14V – 26V
Efficiency 80%
Power Factor 0.99
Wire Diameter Fe: 0.6/0.8/0.9/1.2 Ss: 0.8/0.9/1.0/1.2
Flux-Cored: 0.6/0.8/0.9/1.0/1.2
Net Weight 23kg
Dimensions 618mm x 240mm x 445mm
Insulation Class H
Protection Class IP23S
Cooling Auto Fan
SPECIFICATIONS
Power Supply 240V±10%
Supply Plug 10 Amps
Rated Input Current 22A
No-Load Voltage 310V
Current Range 20-30A
Rated Output Voltage 88-96
Duty Cycle (40o
C 10min) 30A @ 30%
Severance Cut for
Carbon Steel ≤ 15mm
Production Cut
• Carbon Steel
• Stainless Steel
• Aluminium
• Copper
≤ 10mm
≤ 10mm
≤ 10mm
≤ 6mm
Net Weight 7.3kg
Dimensions 505mm x 147mm x 305mm
Insulation Class H
Protection Class IP21S
Power Factor 0.63
Air Compressor MPa 0.3-0.45
SN100C Lead Free Solder Bar alloys are developed by Nihon Superior in Japan. It is comprised of tin, copper, and a small amount of nickel. SN100C offers user-friendly properties and has been proven in commercial production since 1999. The addition of nickel improves the wetting and flow properties of the cost-effective tin-copper eutectic. This makes it possible to achieve excellent results in wave soldering at process temperatures comparable to the tin-lead solder it replaces. Performance in wave soldering at least matches that of more expensive silver-containing alloys and the resulting joints are smoother and brighter.
The patented addition of nickel ensures the wetting and flow properties make it possible to achieve excellent results in wave soldering at process temperatures comparable with those used with the tin-lead solder it replaces. Performance in wave soldering at least matches that of more expensive silver-containing alloys and the resulting joints are smoother and brighter.
Features of SN100C
* Does not contain silver or bismuth
* Eutectic alloy
* Bridge-free and icicle-free soldering
* Smooth, bright, well-formed fillets, free of gross micro-cracks, irrespective of the cooling rate
* Good through-hole penetration
* Good topside fillet formation
* Dross rate equal or lower than tin-lead solder
* Does not require a nitrogen atmosphere
* Does not erode copper from holes, pads and tracks
* Low rate of copper leaching makes it easy to control the copper content of the solder bath
* Lower aggressiveness to stainless steel and other solder pot materials as compared to tin-silver-copper alloys
* Thermal fatigue resistance and creep strength better than tin-lead
* Slow, even growth of the intermetallic layer at the solder/substrate interface
* Also performs well in selective and dip soldering
The ‘Bottom Line’
Customer experience over several years is that the TOTAL cost of running a standard wave soldering machine with SN100C when all factors are taken into account can be up to one third the cost of running the same machine with tin-silver-copper alloys. The actual savings in each case will depend on the number of factors that apply, but the cost of running a line with SN100C is always lower than the cost of running the same line with tin-silver-copper.