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electric resistance welded 是什么焊接?管子的

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发表于 2007-10-24 09:02 | 显示全部楼层 |阅读模式 来自: 日本
The material of pipe shall be the electric resistance welded carbon steel unless otherwise specified.
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龙船学院
发表于 2007-10-24 22:35 | 显示全部楼层 来自: 中国上海
电阻焊,楼主,你……
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 楼主| 发表于 2007-10-25 09:15 | 显示全部楼层 来自: 日本
原帖由 hustzealot 于 2007-10-24 22:35 发表
电阻焊,楼主,你……


电阻焊,还是不懂啊,应该不是普通的焊接,也不是摩擦焊接,能详细解释?
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发表于 2007-10-25 09:26 | 显示全部楼层 来自: 中国上海
TPJ - The Tube & Pipe Journal® Electric resistance welding at a glanceProcess, power supply, and weld roll basicsBy Gerald Weimer and Ray Cagganello, Contributing Writers
June 13, 2002
This article provides an overview of electric resistance welding (ERW). It dicusses high-frequency ERW (contact and induction) and rotary wheel contact welding (AC, DC, and square wave). It describes the differences among the processes, as well as the power supplies and weld rolls.
Figure 1
The pressure generated during the forge welding process extrudes foreign particles, such as oxides and debris, from the weld zone. This extruded material forms a weld bead on the OD and ID of the tube.

Several electric resistance welding (ERW) processes are available for tube and pipe production. While each process has different characteristics, all ERW processes have one thing in common–all of them produce a forged weld.
A forged weld is created by applying a combination of heat and pressure, or forging force, to the weld zone. A successful forged weld uses the optimum amount of heat, which is normally slightly less than the melting point of the material, and a nearly simultaneous application of circumferential pressure to the section, which forces the heated edges together (see Figure 1).
As the name implies, the heat generated by the weld power is a result of the material's resistance to the flow of electrical current. The pressure comes from rolls that squeeze the tube into its finished shape.
The two main types of ERW are high-frequency (HF) and rotary contact wheel.
The Basics of HF WeldingThe two main aspects of HF welding are processes and power supplies. Each of these can be broken down further into subcategories.
Figure 2
HF induction welding uses a coil rather than contacts. The coil induces current into the unfinished tube, which requires more power than contact welding.

Processes. The two HF welding processes are HF contact and HF induction. In both processes, the equipment that provides the electrical current is independent from the equipment that supplies the forge pressure. Also, both HF methods can employ impeders, which are soft magnetic components located inside the tube that help to focus the weld current in the strip edges.
HF Induction Welding. In the case of HF induction welding, the weld current is transmitted to the material through a work coil in front of the weld point (see Figure 2). The work coil does not contact the tube--the electrical current is induced into the material through magnetic fields that surround the tube. HF induction welding eliminates contact marks and reduces the setup required when changing tube size. It also requires less maintenance than contact welding.
It is estimated that 90 percent of tube mills in North America use HF induction welding.
Figure 3
In HF contact welding, current flows through the contacts and into the unfinished tube. The current takes the path of least resistance, flowing around the open V, creating a buildup of heat at the apex. This is where the welding occurs.

HF Contact Welding. HF contact welding transfers weld current to the material through contacts that ride on the strip (see Figure 3). The weld power is applied directly to the tube, which makes this process more electrically efficient than HF induction welding. Because it is more efficient, it is well-suited to heavy-wall and large-diameter tube production.
Power Supplies. HF welding machines also are classified by how they generate power. The two types are vacuum tube and solid-state. The vacuum tube type is the traditional power supply. Since their introduction in the early '90s, however, solid-state units have quickly gained prominence in the industry. It is estimated that between 500 and 600 of each type are operating in North America.
The Basics of Rotary Contact Wheel WeldingIn rotary contact wheel welding, the electrical current is transmitted through a contact wheel at the weld point. The contact wheel also applies some of the forge pressure necessary for the welding process.
The three main types of rotary contact wheel welders are AC, DC, and square wave. In all three power supplies, electrical current is transferred by brush assemblies that engage slip rings attached to a rotating shaft that supports the contact wheels. These contact wheels transfer the current to the strip edges.
Figure 4
The AC sine wave (top) correlates to the weld temperature (bottom). Because the peaks and valleys of AC are brief, the corresponding welding temperature varies dramatically.

AC Rotary Contact Wheel Welding. In an AC rotary contact wheel welding machine, the current is transferred through the brushes to the rotating shaft, which has a transformer mounted on it. The transformer reduces the voltage and increases the current, making it suitable for welding. The two legs of the transformer's output circuit are connected to the two halves of the rotating contact wheel, which are insulated from each other. The strip completes the circuit by acting as a conductor between the two halves of the wheel.
Traditional rotary contact wheel welders used 60-hertz AC, or common line current. A drawback to this system is that the current--and therefore the weld heat--rises and falls, limiting the speed at which the tube can be welded. An AC sine wave reaches its maximum amplitude briefly, producing weld heat that varies just as the sine wave does (see Figure 4).
To help even out the heat variation, motor generator sets were introduced to create AC at higher frequencies. Some of the frequencies used were 180, 360, 480, and 960 Hz. A few solid-state units also were produced to generate higher-frequency currents. An AC sine wave at 960 Hz reaches its maximum amplitude 1,920 times per second, as opposed to 120 times per second with a 60-Hz signal. The 960-Hz sine wave produces heat with a much more consistent temperature.
DC Rotary Contact Wheel Welding. The next step in rotary contact wheel welding was the DC power supply. The power produced has a nearly constant amplitude. Although this solves the problem of varying heat, a major drawback is that higher maintenance costs are associated with this type of welding machine.
Because it is not possible to change the voltage of DC with a transformer, it is necessary to transmit the high-amperage, low-voltage weld current into the shaft through a large number of brushes (92 for DC versus 8 for AC) with a high current density. Transmitting high-amperage, low-voltage current produces excess (waste) heat that causes heavy wear, resulting in the high maintenance costs mentioned previously.
Figure 5
Direct current and voltage produce power with a much more consistent amplitude--and weld heat--than AC power.

Square Wave Rotary Contact Wheel Welding. The latest step in the evolution of rotary contact wheel welding is the square wave power supply. This method combines the consistent weld heat of DC with the lower maintenance associated with AC units (see Figure 5).
While rotary contact weld methods preceded the more commonly used HF welding processes, they still have a vital role in specialty welding applications. Rotary contact welding is useful for applications that cannot accommodate an impeder on the ID of the tube. Examples of this are small-diameter refrigeration-grade tube and tube that is painted on the ID immediately after the welding process.
How Many Roll Units Are Needed?The types of weld pressure rolls, or squeeze boxes as they sometimes are called, that apply the pressure required for the weld are as varied as the welding units used to supply the heat. Squeeze boxes for rotary contact wheel welding typically have two or three roll units, with the contact wheel serving as one of the rolls.
The number of rolls in the weld squeeze box is proportionate to the size and shape of the product being welded. There are no hard and fast rules; however, common guidelines for round tube or pipe size ranges are as follows:
  • 3/8 to 2 in. uses two-roll units.
  • 1/2 to 3 1/2 in. uses three-roll units.
  • 2 to 10 in. uses four-roll units.
  • Larger than 10 in. uses five or more rolls.
Today, much more so than in the past, many shapes--square, rectangular, hexagonal--are welded in the finished shape rather than being reshaped after being welded round. The weld boxes used for the shapes are custom-designed for each application and usually have no more than five rolls.
Gerald Weimer is product manager of tube mill systems with Yoder - Formtek Cleveland Inc., 26565 Miles Road, Suite 200, Cleveland, OH 44128, phone 216-292-4460, fax 216-292-2898, e-mail Yoder@FormtekCleveland.com, Web site www.yodermfg.com. Yoder designs and manufactures mills and roll tooling for the tube, pipe, and roll forming industries.
Ray Cagganello is director of operations and aftermarket products for Thermatool Corp., 31 Commerce St., East Haven, CT 06512, phone 203-468-4100, fax 203-468-4281, e-mail rayc@ttool.com, Web site www.thermatool.com. Thermatool manufactures 50- to 2,000-kW, solid-state and vacuum tube contact and induction welding units with frequencies from 100 to 800 kHz, alpha shears, hot and cold saws, bundling systems, heating systems, and complete mill systems.
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发表于 2007-10-25 09:55 | 显示全部楼层 来自: 中国广东广州
电阻焊,顾名思义就是利用工件接头间的接触电阻,在电极的作用下,电流经工件接头接触面和附件区域时产生的电阻热,来实现焊接的方法。用此法焊接的热源是电阻热,而在焊接时要通过电极给工件施加一定的压力,所以又叫“压焊”。
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发表于 2007-10-25 12:08 | 显示全部楼层 来自: 中国湖北武汉
学习知识 保存中。。。。。
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