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Min. Order : 1000 Meters

standing cable bent forward Cable Crossover XF23

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Port: qingdao shanghai/ tianjin
Payment Terms: L/C,T/T,Western Union,MoneyGram
Supply Ability: 20 Kilometer/Kilometers per Day
Jacket: Rubber
Keywords: adjustable cable crossover
Place of Origin: Henan China
Cross section: 1.5mm2-240mm2
Standard: 245 IEC 81 IEC60245-6, H01N2-D
Model Number: Chunbin cable welding cable-1588
Brand Name: chunbin
Insulation Material: Rubber
Type: LOW VOLTAGE
Packing: Roll/Woodren Drum
Length: Lengths Customize
Product name: crossover machine
Rated voltage: 450/750V
Conductor Material: Copper
Conductor: Copper/CCA/Tinned copper
Application: Mining
Number of Cores: 1
Certificate: ISO9001/ISO14001 /OHSAS18001/CCC
Packaging Detail: 1 1.1*1.1*1.1 wooden drum 2 1.8*1.8*1.1 wooden and steel drum 3 2.2*2.2*1.1 wooden and steel drum 4 As customer required
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Chunbin Cable Group Co., Ltd.
Supplier
CN
Manufacturer, Trading Company
76.9%
Response Rate
50.0%
On-time delivery rate
-
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Transactions
101-200
Employees
5-10
R&D staffs
0
Patents
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standing cable bent forward Cable Crossover XF23                      standing cable bent forward Cable Crossover XF23
 
 
 
 
 
 
Product Description

 All  the cable OEM SERVICE  is welcome  

adjustable cable crossover

 

Application:
  Welding cable designed for the secondary (high current) connection to automatic or hand-held metal arc welding electrodes. It is suitable for flexible use under rugged conditions, on assembly lines and convey or systems, in machine tool and automatically operated line and spot welding machines. Power: Earthing/ return leads, power feeds to electrolytic plating process, Busbar connection, transformers, generators, aircraft servicing equipments etc.

 

(1) IEC Size: 16mm2, 25mm2, 35mm2, 50mm2,70mm2, 95mm2,120mm2.

(2) AWG Size: 6AWG,4AWG,2AWG,1AWG,1/0,2/0,3/0,4/0.

 

 

2. Name and IEC Standard
   (1). Rubber Sheathed Welding Cable 245 IEC 81  IEC60245-6, H01N2-D
   (2). Rubber Sheathed Welding Cable 245 IEC 82, which is made of chloroperene or the composite stretchy materials.
3. Conductor:

OFC/CCA/tinned copper wires or CCS Conductor

4. Jacket:

Rubber or PVC or TPE

5. Packing:

100m/roll or 200m/roll (As requested) Outer packing: 8 rolls/carton or 4 rolls/carton

 

Conductor Nominal Section (mm2)

Conductive Core

Thickness of Section Sheath (mm)

Average Outer Diameter (mm2)

200C Conductor Resistance≤(Ω/km)

 

Number/Diameter of Core(mm)

 

Min

Max

 

10

322/0.20

1.8

7.5

9.7

1.91

16

513/0.20

2.0

9.2

11.5

1.16

25

798/0.20

2.0

10.5

13.0

0.758

35

1121/0.20

2.0

11.5

14.5

0.536

50

1596/0.20

2.2

13.5

17.0

0.379

70

2214/0.20

2.4

15.0

19.5

0.268

95

2997/0.20

2.6

17.0

22.0

0.198

120

1702/0.30

2.8

19.0

24.0

0.161

150

2135/0.30

3.0

21.0

27.0

0.129

185

1443/0.40

3.2

22.0

29.0

0.106

 

OEM is welcome   

1) Minimum order quantity: 5 kilometers at least
2) Price: EXW/FOB/ CIF
3) Packing: 100m/roll or 500m/roll or as cus

4) Sample: Free sample is available for you
5) Individual Service: Can print your logo or brand name on cable
YH: Natural rubber sheath for welding cable
YHF: Horoprene rubber or other syntheitic rubber sheath welding cable
Working Temperature ≤ 60º C

Certifications
standing cable bent forward Cable Crossover XF23
standing cable bent forward Cable Crossover XF23
standing cable bent forward Cable Crossover XF23
Our Services

 

 

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Delivery 

We usually use 20fcl  40fcl  and 40HQ
 
standing cable bent forward Cable Crossover XF23
 
Our Service

Pre-Sales Service

* Inquiry and consulting support. 

* Sample testing support. 

* Visit our Factory.

After-Sales Service

* Professional design service 

* Professional exporter service

 

Packaging & Shipping

  standing cable bent forward Cable Crossover XF23FAQ

FAQ
1 Q:Are you a factory or trading company?
A:We are a factory of 39 years history.

2 Q:Why we choose you? 
A: 1. Chinese Famous Brand
2. Super High Quality, Competitive Price
3.Fast Delivery ,Big Production Ability 
3 Q:What is your Warranty and After-sale Service
A:Warranty: 2 year for main body,1 years for parts.
After-sale service:professional engineer for  opertation and maintenance.

 

Company Information

 3w dot chunbincable dot com

 

standing cable bent forward Cable Crossover XF23

HOW TO CHOOSE THE RIGHT ITEM WELDING CABLE ?

Welding cable is the electrical conductor for the welding current. It consists of a series of fine copper strands wrapped inside a non-conductive, durable jacket (typically some type of synthetic or natural rubber of various colors). The fine copper strands give welding cable more flexibility than other types of electrical conductors and the insulating jacket is designed to hold up to repeated movement over rough surfaces. As the current level increases (measured in amperage or amps), the diameter of the welding cable and resulting cross sectional area of the copper stranding needs to increase. The concept is similar to the flow of water through a hose. A larger diameter hose is needed in order to carry a greater volume of water. You use a smaller hose to water your garden, while the fire department uses a much larger hose to fight fires. 

Welding cable “ampacity”, also known as current capacity or amperage rating, refers to the maximum amount of electrical current that a cable can safely conduct.  Besides the cross sectional area, other factors that impact the ampacity of welding cable are its length, ohm rating (i.e., resistance rating), temperature ratings of the insulation material and the ambient temperature. Shorter cables can carry more current than longer cables of the same diameter. Welding cable is often rated with a conductor temperature of 75°C (167° F), 90°C (194⁰F) or 105°C (221°F). While the copper wire itself can handle the high temperatures generated by higher amperages before sustaining damage, the insulation protecting them would melt. Welding cables are also often rated for an ambient temperature of 30°C (86°F). Higher ambient temperatures can reduce their ability to dissipate heat into the surrounding environment, and thus reduce their ampacity. In addition, several cables packed tightly together can also have a reduction in their ability to dissipate heat. Multiple cables should be slightly spread apart.

Note that while copper is an excellent conductor of electricity, it still has a degree of resistance to the flow of electrons through it. Therefore, some amount of resistance heating will occur in the cable. It is normal for a properly sized welding cable to feel warm to the touch after prolonged welding. However, if the diameter of cable is too small for the level of current flowing through it, then the cable will overheat. This can result in a potential fire hazard, as well as damage to the cable itself (and ultimately to cable breakage and failure). A breakdown of the insulation jacket can also be an electrical shock hazard.  Conversely, cable that is oversized for a given amperage level does not conduct current any more effectively than properly sized cable. However, larger diameter cable typically costs more per foot or per meter than smaller diameter cable, because of the increased amount of copper strands. Therefore, oversized cables may not be cost effective.

Electrical cable is typically categorized by an AWG (American Wire Gauge) size, where the smaller diameter cable has a larger number. Figure 1lists the AWG sizes. Gauge (or gage) sizes larger than one are zero, also expressed as 1/0 (pronounced “one aught”), two zeros, expressed as 2/0 (pronounced "two aught"), 3/0 and 4/0. Cable sizes between #4 and #4/0 are typically used for welding cable.

Figure 1: Example Wire Gauge Sizes 

In the metric system, welding cable size is typically expressed in square millimeters (mm2), representing the cross-sectional area of the cable.Figure 2 shows a comparison between welding cables in AWG sizes and metric sizes.

Figure 2: AWG / Metric Cable Size Comparison

Now when selecting the proper cable size for your welding equipment, it is best to choose cable that can handle the maximum output of the welder. To do this, you need to determine three factors. These include:

• Total length of the welding circuit
• Rated output of welding power source
• Duty cycle of the welding power source

The welding circuit is the total path in which the electricity travels. It includes the power source, electrode cable, electrode holder (or TIG torch or wire feeder and gun), electrical arc, work cable and work clamp. Figure 3 illustrates the welding circuit. For determining proper welding cable size, you need to add together the full lengths of the electrode cable and the work cable. The electrode cable attaches to either an electrode holder, TIG torch or wire feeder. The work cable attaches to a work clamp. Note these last two items are often incorrectly referred to as the “ground cable” and “ground clamp”. However, this is improper terminology, as the "ground" lead only applies to the primary side of the welding circuit (i.e. the incoming power cable).

Figure 3: Example Welding Circuit

Note that welding polarity does not affect the size of cable needed. It does not matter in which direction the current flows through the welding circuit, whether it be direct current positive (DC+), direct current negative (DC-) or alternating current (AC). Polarity and direction of current flow only affects welding characteristics and electrode selection.
 
Rated output of the power source is simply the maximum current or amperage level in which the machine is indented to be used (note that some power sources can produce higher currents than their rated output for short periods of time). This rated output level is typically incorporated into the machine’s name.  Examples include the “Idealarc® 250” (rated 250A output), Power Wave® S350 (350A rated output), Flextec™ 650 (650A rated output), etc. 

Duty cycle is a capacity rating of a welding power source, expressed as a percent (%). It is the percentage of a ten minute period that the power source can operate at a given output current level before exceeding its thermal limit (i.e. the windings get too hot) and shutting down if it has thermal overload protection.  Generally as output levels decrease, duty cycle increases (until 100% or continuous output). Conversely, as output levels increase (until maximum output capacity), duty cycle decreases. The duty cycle rating(s) can be found on the power source’s nameplate and/or in the operating manual. The duty cycle rating of a welding power source is typically related to the welding processes in which it will be used, its intended use and whether it operates off of single phase or three phase power. Figure 4 lists some typical differences between single and three phase power supplies, including their typical duty cycles. 

Figure 4: Single vs. Three Phase Power Supplies


Figure 5 is an example of a chart for selecting the proper welding cable size. Other charts are available from cable manufacturers and welding reference books. As an example, let’s assume you have a 400 amp power source at 60% duty cycle and need a total combined length of electrode plus work cables of 100 feet. From the chart, the proper cable size to select would be #2/0 cable. Cable sizes are increased for longer lengths primarily for the purpose of minimizing cable drop. For higher current levels, two or more cables are often recommended and should be hooked up in parallel or together in order to share the current load.

Figure 5: Selecting the Proper Size Welding Cable

It should also be noted that in addition to proper cable size selection, it is very important to maintain the welding cable and the cable connections in good condition. Any cracks, cuts, worn spots, etc. in the weld cable can decrease its current carrying capability and create hot spots. In addition, worn or frayed cable connections to the work clamp, lugs or twist lock connectors can also decrease the ability to carry the current and create hot spots (see examples in Figure 6). All worn, frayed and damaged sections should be repaired immediately for proper operation and to minimize any potential safety hazards.