Weldability of Metal Materials

Weldability of Metal Materials

Weldability of metal materials refers to the ability of metal materials to obtain excellent welded joints under certain welding processes, including welding methods, welding materials, welding specifications and welding structure forms. If a metal can use more common and simple welding processes to obtain excellent welded joints, it is considered that this metal has good welding performance. The weldability of metal materials is generally divided into process weldability and service weldability.

Process Weldability: Refers to the ability to obtain excellent and defect free welded joints under certain welding process conditions. It is not the inherent property of metal, but the evaluation according to a certain welding method and specific process measures. Therefore, the process weldability of metal materials is closely related to the welding process.

Service Weldability: Refers to the degree to which the welded joint or the whole structure meets the service performance specified in the product technical conditions. The service performance depends on the working conditions of the welded structure and the technical requirements put forward in the design. It usually includes mechanical properties, low temperature toughness, brittle fracture resistance, high temperature creep, fatigue properties, endurance strength, corrosion resistance and wear resistance. For example, the commonly used s30403 and s31603 stainless steels have excellent corrosion resistance, and 16MnDR and 09MnNiDR low-temperature steels also have good low-temperature toughness.

Factors affecting the weldability of metal materials

1. Material Factors
   Materials include base metal and welding materials. Under the same welding conditions, the main factors determining the weldability of base metal are its own physical properties and chemical composition.
   Physical properties: such as melting point, thermal conductivity, coefficient of linear expansion, density, heat capacity and other factors of metal affect the processes of thermal cycle, melting, crystallization and phase transformation, so as to affect the weldability. Stainless steel and other materials with low thermal conductivity have large temperature gradient, high residual stress and large deformation during welding.
   In terms of chemical composition, the most influential element is carbon, that is, the amount of carbon in the metal determines its weldability. Most of the other alloying elements in steel are also not conducive to welding, but their influence is generally much smaller than that of carbon. With the increase of carbon content in steel, the hardening tendency increases and the plasticity decreases, which is easy to produce welding cracks.
   2 .Process Factors
   Process factors include welding method, welding process parameters, welding sequence, preheating, post heat and post weld heat treatment. Welding methods have a great influence on weldability, mainly in two aspects: heat source characteristics and protection conditions.
   By adjusting welding process parameters, taking other process measures such as preheating, post heating, multi-layer welding and controlling interlayer temperature, the welding thermal cycle can be adjusted and controlled, so as to change the weldability of metal. If measures such as preheating before welding or post welding heat treatment are taken, it is entirely possible to obtain welded joints without crack defects and meeting the service performance requirements.

3. Structural Factors
   It mainly refers to the design form of welding structure and welded joint, such as the influence of structural shape, size, thickness, joint groove form, weld arrangement and section shape on weldability. Its influence is mainly reflected in heat transfer and force state. Different plate thickness, joint form or groove shape have different heat transfer velocity direction and heat transfer velocity, which affect the crystallization direction and grain growth of molten pool.
4. Service Conditions
   It refers to the working temperature, load conditions and working medium of the welded structure during service. These working environment and operating conditions require the welded structure to have corresponding service performance. The more severe the service conditions are, the higher the quality requirements for welded joints are, and the more difficult it is to ensure the weldability of materials.

Stainless Steel Pipe/Tube Products:

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MTSCO – Austenitic / Duplex steel / Nickel alloy

– To be the most reliable industrial metal service provider in the world

Who MTSCO is?

MTSCO established in 2006, during many years development, nowbecomes a large and professional industrial piping system provider, serving customers from more than 100 countries and regions.

What products can we provide?

What materials can we provide?

Austenitic

304/L/H/N, 316/L/H/N/Ti, 321/H, 309/H, 310S, 347/H, 317/L904L

Duplex steel

31803, 32205, 32750, 32760

Nickel alloy

Alloy B/ N10001, Alloy B2/N10665, Alloy B3/N10675, Alloy C4/N06455, Alloy C22/N06022, Alloy C276/N10276, Alloy C2000/N06200, Alloy G35/N06035, Alloy G30/N06030,
Alloy S/N06635, Alloy N/N10003, Alloy X/N06002, Alloy 188/R30188, Alloy 230/N06230,
Alloy 556/R30556, Alloy 600/ N06600, Alloy 601/N06601, Alloy 617/N06617,
Alloy 625/N06625, Alloy 718/N07718, Alloy X750/N07750, Alloy 800/N08800,
Alloy 800H/N08810, Alloy 800HT/N08811, Alloy 825/N08825, Alloy 925/N09925,
Alloy 926/N08926, Alloy 400/ N04400, Alloy K500/N05500
Precipitation-hardening Steels: 254SMO/S31254, 17-4PH, 17-7PH, 15-7PH
Nickel: N4/UNS N02201, N6/UNS N02200

How can MTSCO service customers?

MTSCO’s ISO9001 Quality System is issued by TUV. Our full and professional inspection reports contain two parts, one is self-inspection of the requirements beyond ISO9001, which is 100% inspected by our own QC; another is 100% inspected by professional QC teams.

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