• Solving problems on the tube mill

    Solving problems on the tube mill

    Tube mill machine line face a variety of challenges every

    day in their effort to produce high-quality tubing in a cost-effective and productive way.

    This article examines some of the typical problems producers encounter, some common causes of these problems, and some

    ideas for how to solve these problems.

    Lost Mill Time During Operation and Changeovers

    Often, excessive downtime during normal operation or tooling/job changeover can be attributed to one or more of the

    following causes:

    1. No written procedures for setup. Every mill should have written procedures for all operators to follow. The machine,

    tooling, and steel are fixed factors in the mill setup equation; the only variable is the human factor. This is why it is so

    important to have written procedures in place to control the process. Written procedures also provide a tool for

    troubleshooting when problems arise.

    2. No setup chart. Tweaking the mill during setup loses valuable setup time. Operators must work the tooling the way it

    was designed. This means setting up to the parameters of a setup chart.

    3. Lack of formal training. Formal training helps operators perform the procedures for

    carbon steel tube mill machine

    and maintenance and ensures that all operators are on the same track.

    4. Disregard of parameters from previous setup. If the Galvanized tube mill machine has been set up according to the written procedures and

    setup chart, the operator can write down the numbers from the digital readout on the single-point adjustment (SPA) unit,

    allowing the next operator to set up where the first left off. Setting up to the numbers can save as much as 75 percent of

    total setup time, as long as all the other tips discussed in this article are followed.

    5. Mill in poor condition. A poorly maintained mill costs valuable time and scrap during setup and operation. The mill

    must be dependable so that the operator is not chasing mechanical problems during normal operation and setup. A good

    maintenance program, as well as rebuilds or upgrades when necessary, is essential.

    6. Mill in misalignment. Tube mill misalignment, poor mill condition, and inaccurate setup account for 95 percent of all

    problems in tube production. Most mills should be aligned at least once a year.

    7. Tooling in poor condition. Operators must know how much life is left in the tooling before the next scheduled rework.

    Running the tooling until it cannot produce tubing anymore not only wastes valuable mill time, but produces scrap and affects

    delivery schedules. All tube production companies should have a tooling maintenance program in place.

    Any of these causes of lost time on the mill can have varying degrees of value, depending on the severity of the

    conditions. The bottom line is, the more of these items that are in control, the less downtime on the mill.

    Splitting in the Weld Zone

    Weld zone splitting can be a result of some or all of the following:

    Overly narrow strip with insufficient material to forge

    Poor alignment or setup

    Insufficiently worked fin passes, so the edge is not prepared for welding

    Poor slit edge

    Off-center strip approach (strip rolled over) to the weld box, preventing forging between the weld rolls

    Nonparallel edges entering the welding machine

    Inappropriate weld power for mill speed

    Poor-quality steel with improper chemistry

    Irregular Size in the Sizing Section

    When irregular size occurs in the sizing section, the problem may not necessarily be in the sizing section itself. The

    operator also must check the setup in the breakdown, fin, and welding section of the mill to ensure proper presentation to

    the sizing section. If the forming section sends improperly formed tube to the sizing section, irregular tube size can


    The operator also should check for bent shafts, oversized bores on the tooling, or undersized outside diameters (ODs) on

    the driven shafts. The integrity of the side roll boxes also should be checked.

    In addition to these checks, the operator should consider the following questions:

    Is the weld size in accordance with the setup chart?

    Is the weld size round?

    Are the strip edges parallel, with no step going into the weld rolls?

    Is the weld scarf smooth?

    Are rework shims installed under the bottom driven shafts to maintain the metal line?

    Are the correct spacers installed on the driven shafts and to the correct length?

    Are the bearings and bearing blocks tight?

    Are the side rolls parallel?

    Is the tube being cooled properly?

    Are all the drives coordinated and adjusted to match the rework of the tooling?

    Has the chemistry or hardness of the material changed?

    Weld Chatter

    Weld chatter is the inability to achieve a clean cut of the outside weld bead after welding. The scarf knife chatters and

    produces a ribbed or rough cut on the OD of the tube. This is unacceptable in most of the end products produced by the tube

    and pipe industry.

    Several techniques can be used to prevent weld chatter.

    The scarf knife should have a slightly larger radius than the tube OD. This will provide a concentric, clean cut.

    An ironing pass should be used after the scarf stand. As the name implies, this stand irons out any hot imperfections the

    scarf knife may leave behind. It also adds a tremendous amount of stability to the scarfing operation.

    On mills that employ induction welding, moving the induction coil upstream a bit and away from the weld rolls helps

    temper the edges of the strip by preheating them before welding. This results in a more malleable material that is softer and

    easier for the scarf knife to cut.

    The heel of the scarf knife or insert should be ground to an angle of 18 degrees from the horizontal, and the tool should

    be set at an angle of 15 degrees from the vertical. This provides the proper clearance so the knife does not drag on the tube

    or pipe. A straight up-and-down approach to the tube or pipe invites chatter.

    In general, several tube mill components should be checked

    on a regular basis. This should be done at least monthly, but should be based on the usage. A higher production rate or

    running heavier metals through the mill requires more frequent checks. Shafts should be checked for OD, looseness, bending,

    and parallelism. Shoulder alignment should be checked, and the integrity of the entry table, drive stands, side roll boxes,

    weld box, and Turk's head units should be ensured. Of course, rolls should be checked to ensure they have been installed

    on the correct stands.

    Once a year, the mill should be aligned. A mill alignment usually takes one or two days and is most often done by a

    professional. Every day, the mill operator should use a setup chart and follow all operating procedures.

    The operator also should know the chemistry, Rockwell hardness, width, and thickness of the strip entering the mill and

    should document these values. Tube size should be measured between each pass.

    Most important, for high-quality, consistent results in tube producing, an operation standard should be established for

    all employees to follow.

    High‐frequency welded carbon tube mill machine line is designed to produce round tube diameter of 10.0 – 38.1mm, and

    wall thickness of 0.4 ‐1.8mm.This line utilizes roll forming to process steel strip into various shapes. Using high

    frequency induction heating, this line is capable of producing section material of various diameters and sizes by squeezing

    weld seam together into closed shape. The application of advanced aperture technology, PLC automatic control system and

    British Eurasia Digital speed‐regulating unit ensure that the production line works reliably and operates and maintains


    Every detail is the evidence of showing our company's strength and works's hardworking and it is the basical

    assurance of every machine we are producing.We are targeting to provide our customers with high-quality equipment or


    Botou Boheng Metallurgical Equipment Manufacturing Co.,Ltd was established in 2003, and located in Botou city Hebei

    province. Boheng is a high and new-techonology enterprise specialized in design,development and manufacture of ERW welded

    pipe equipment,high precision slitting & crossing-cutting equipment,spiral welded pipe equipment,cold forming equipment and

    crossing-cutting equipment,spiral welded pipe equipment,cold forming equipment and rollers. Boheng is the pioneer that had

    the key processing technology of the international advanced whole set welded pipe mill. Boheng always adhere to the

    enterprise policy "contribute to the society with excellent techniques,high quality products and perfect service".

    Technology capability:

    (1)Engineer able to service overseas

    (2)Work out reasonable investment scheme,selecting rational model unit

    (3)Provide free equipment layout,factory planning for you

    (4)Provide free equipment foundation drawing,if necessary,offer technical guidance on-site for equipment foundation


    (5)Provide equipment installation and commission,ensure the normal operation of production line

    (6)Provide professional technical training to help your stuff familiar with equipment ASAP

    • Creado: 18-09-21
    • Última sesión: 18-09-21

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