Hot Sale Slitter Line Machine for Steel

• Model NO.: ZJ3-20
• Raw Material: Steel, Aluminum, Copper, etc
• Width of Plate: 800-2100mm
• Finished Width: 20mm-120mm
• Floor Space(W*L): 25*138*11
• Warranty: One Year
• Transport Package: Wooden Boxes or Pallet
• Origin: China

• Product Name: Steel Coil Slitting Line Machine
• Thickness of Plate: 0.15-20mm
• Roll Weight: 30-40t
• Shearing Velocity: 30-200m/Min
• Power: Hydraulic
• Trademark: Lixing
• Specification: CE, SGS
• HS Code: 84623990

                                                    Slitting effect of slitting line machine

                                                   Manufacturer site of slitting line machine

                                                Whole Production Line of Slitting Line Machine

Application
The slitting line machine/cold steel coil slitting cutting machine/stainless steel plate slitter and rewinder is suitable for the longitudinal shearing work of the metal belt material, and rewinding the narrow strip into the new roll.
The slitting machine is applied to the thickness of material from 0.2mm to 30mm, width from 300mm to 2100mm. The popular slitter rewinder machine is also applicable for cold rolled steel, tinplate, hot rolled carbon steel coil, silicon steel coil, stainless steel coil and all kinds of surface coated metal plate. 

Technological Process
-->Feeding car
-->Single-ared uncoiling machine/Uncoiler
-->Leading end, Pressing end, shovel end, two rollers feeding
-->End head cutting
-->Loop I
-->Deviation Correcting device/Rectifying mechanical device
-->Round cutter Slitting machine
-->Wasted strip recoiling device
-->Loop II
-->Strip Pre-distributing, pressing board damping, straightening tension machine
-->Recoiling machine/Recoiler
-->Material discharging car
-->Hydraulic control
-->Electric control 

Specification sheet

Thickness	width	Roll weight	Finished width	Shearing velocity  (MAX)	Floor space; L*W
0.15-2	800-1600	30T	≥20mm	200m/min	25*10
0.5-4	800-1600	30T	≥40mm	120m/min	25*10
1-6	800-1600	30T	≥60mm	80m/min	25*10
2-8	800-2000	30T	≥70mm	60m/min	30*11
3-10	800-2000	30T	≥80mm	50m/min	35*11
3-12	800-2000	30T	≥100mm	40m/min	35*11
3-14	800-2000	35T	≥100mm	40m/min	36*11
3-16	800-2000	35T	≥120mm	35m/min	36*11
5-20	800-2000	40T	≥120mm	30m/min	38*11

Related Products

A. Cut to Length Machine



B. Rolling Mill Machine



Company Introduction
Lixing Metallurgy Machinery Co., Ltd, professionally works on production of slitter such as disk metal slitter, cable material cutter and metal band cutter, plane shear series, cold rolled steel shaper serious and bending machine with three and four rollers.
 
Company covers 18,500m². It can produce more than 60 cutter sets in diversified types annually. At present there are over 100 employees including 35 technicians. Our equipments reach international advancement, which are achieved by experienced and professional boasts completed processing machines and strong competence concerning technology and processing ability. It has worked on production for over 30 years.
 
Our equipment are more economic and practical compared with equivalent imported ones. In addition we can provide quick-response and high-efficiency after-sales service and trained technical around personnel. Our products are popular around China and won unanimous appraisals from customers.


!!Please contact us if you have any inquiry

Elisa
 
 
 
 

Carbon Steel Submerged Arc Welding Wire

Some carbon steel SAW electrodes may not consistently provide weld metal with required minimum strengths when postweld heat treatment (PWHT) is specified, and controlled alloying with Mn and Mo will achieve minimum tensile and maximum hardness limits although, with welds not subject to PWHT, Mn and Mo additions may at times be undesirable for adequate corrosion resistance.

Carbon steel welds exposed to wet hydrogen sulfide service are susceptible to cracking when the weld metal tensile strength and hardness are excessive. Whereas lower strength and softer weld deposits are resistant to wet H2S cracking, such welds may not have adequate tensile strength to satisfy design requirements. This paper provides background information on the subject of tensile strength and resistance to wet H2S cracking of carbon steel sub-merged arc welds obtained from reviewing industrial practices, applicable codes, technical society recommendations and technical literature.

A series of tests was conducted to determine the effect of postweld heat treatment on the strength and hardness of various types of carbon steel submerged arc weld metal. Test results showed that some commonly employed carbon steel submerged arc welding electrodes may not consistently provide weld metal of required minimum tensile strength when post-weld heat treatment is specified.

Further tests indicated that both minimum tensile and maximum hardness limits can be achieved by controlled alloying with both manganese and molybdenum. However, for welds not subject to any postweld heat treatment operation, these alloy additions are not needed to meet the tensile requirements and may at times be undesirable for adequate corrosion resistance.

This paper also discusses the need to modify the present classification system for carbon steel and low alloy submerged arc welding consumables.

Introduction
It seems appropriate that flux electrode combinations selected for sub-merged arc welds should produce weld metal properties that meet the minimum requirements of the base metal to be joined. In the case of pressure vessels fabricated for the petroleum and chemical process industries, tensile strength and corrosion resistance are of primary concern. Of major concern is corrosion in wet hydrogen sulfide environments. There are indications that attempts to achieve optimum tensile strength and corrosion resistance can create a conflict. While high strength weld deposits are more susceptible to wet H2S cracking than lower strength or softer welds, some of the soft weld deposits demanded by the corrosion engineer may not meet minimum tensile strength requirements demanded by the vessel designer.

This paper reviews existing industrial practices, applicable codes, technical society recommendations and other references addressing tensile strength and resistance to wet H2S cracking of carbon steel submerged arc welds. The review is augmented by a series of tests conducted to deter-mine how heat treatment influences these properties. This provided the possibility to better understand some of the welding variables, to optimize material selection and to recommend changes in existing industry standards and recommended practices.

Consumables for Submerged Arc Welding
Submerged arc welding electrodes and fluxes are usually classified on the basis of American Welding Society

Specifications AWS A5.171 and AWS A5.23.2 These documents include chemistry limits for various solid wire electrodes. To complete the designation for the submerged arc welding consumables, fluxes have been classified on the basis of minimum tensile strength and minimum notch ductility when employed in conjunction with specific welding wires.

This paper reviews existing industrial practices, applicable codes, technical society recommendations and other references addressing tensile strength and resistance to wet H2S cracking of carbon steel submerged arc welds. The review is augmented by a series of tests conducted to determine how heat treatment influences these properties. This provided the possibility to better understand some of the welding variables, to optimize material selection and to recommend changes in existing industry standards and recommended practices.

Consumables for Submerged Arc Welding
Submerged arc welding electrodes and fluxes are usually classified on the basis of American Welding Society

Specifications AWS A5.171 and AWS A5.23.2 These documents include chemistry limits for various solid wire electrodes. To complete the designation for the submerged arc welding consumables, fluxes have been classified on the basis of minimum tensile strength and minimum notch ductility when employed in conjunction with specific welding wires.

Tensile Strength vs. Corrosion Resistance
It is not the intention of this paper to evaluate or question whether the 200

BHN hardness limit provides optimum protection in a wet H2S environment. However, this paper does question whether the minimum specified tensile strength can be achieved in production without exceeding the chemistry limits recommended by the API and NACE documents.

A summary of many ASME procedure qualifications using double-welded joints shown in Fig. 1 B met both the minimum tensile strength of 70,000 psi (485 MPa) and the maximum hardness requirement of 200 BHN. When required to meet this minimum tensile strength, some fabricators selected EM12K wire electrode and neutral or near neutral flux for "as-welded" and "postweld heat treated" joints.

properties where the base material dilution contributes little to the de-posit chemistry, this paper has subdivided carbon steel fabrication into four basic "applications" (applications # 1 to # 4 in Table 2). These are grouped on the basis of minimum tensile strengths and postweld heat treatment requirements as shown in Table 2. Each of the four applications is reviewed in this paper with special emphasis on application # 4 for which little specific information could be located in the published literature.

Carbon Steel Submerged Arc Welding Wire,Submerged Arc Welding Wire

Changzhou Edaweld Trading Company Limited , https://www.edaweld.com