Exactly what is Explosive Welding Plates?
Titanium Aluminium Clad Plate, which is, the metal composite plate produced by the explosive welding method (explosion welding method), explosive welding plate generally refers to the explosion of the metal composite plate. An explosive welding composite plate is a kind of composite material plate manufactured by using explosive forming technology, along with its manufacturing process involves multiple steps like explosive forming, metal composite, and surface treatment.
Metal explosive welding technology is a composite material processing technology that utilizes the large energy generated by the instantaneous generation of explosives to instantly composite 2 or more kinds of similar or dissimilar materials together, and this technology can weld metals with different properties, particularly those that are not dissolved, into one piece.
In comparison with the direct rolling composite method:
(1) loading speed, which is, the loading process is instantaneous ;
(2) Placed on the workpiece high-pressure pulse load, loading stress is much greater than the yield strength of the metal material;
(3) The bonding area shows wave-like metallurgical bonding characteristics;
Explosive welding composite plate history
Explosive composite discovery is the earliest in 1944, the American L.R. Karl (Carl) in a dynamite explosion test, accidentally found two bits of 1-inch diameter, thickness of .035 inches of thin brass discs, due to the sudden impact of the explosion and was welded together. Actually, in World War II, people in the repair of wounded tanks, but also often discovered that tilted impact towards the tank around the shrapnel is going to be firmly welded towards the tank armor phenomenon, just throughout the war individuals have virtually no time to analyze it.
In 1947, the Siberian branch of the Soviet Academy of Sciences, the famous scientists M.A. Lavrentsev in study regarding polymer bombs to penetrate the armor also found this phenomenon, within his dissertation formally referred to as “explosive welding”.
In the field of welding, the welding of different materials, like steel and aluminum, steel and copper, is technically very difficult. And large welding depth of welding is also very difficult, if you want to use conventional welding, shielding welding and other welding methods is going to be two 40mm thick wide plate welded into a 80mm thick wide plate, it really is estimated that no one can do. However, the explosive welding is ideal to resolve the two problems simultaneously.
Explosive welding composite plate principle production method
Explosive welding is a composite plate manufacturing method that combines one or more materials into a single piece using explosives as the energy source. Following the explosion of explosives, the blast products form a higher-pressure pulse load, directly acting on the compound plate, promoting the high-speed movement of the compound plate, within the collision reason for the compound plate and the substrate tilt collision, combined with violent plastic deformation and the formation of the jet, the jet takes away the top of the contamination layer, so that the welded metal flat plate with a clean surface in contact with each other at high temperatures and high pressures, the two kinds of plate will realize the strong metallurgical bonding.
Explosive welding composite plate-specific production methods:
1. Explosion molding
Explosion molding is the initial step within the creation of explosive welding composite plates. Within the explosion forming process, explosives in certain conditions instantly detonated, the resulting high-pressure gas is going to be pushed towards the opposite side of the metal plate mold, so that the metal plate in an instant to achieve the desired shape and size. This forming technique is described as high precision and high efficiency.
2. Metal composite
Within the explosion molding, the necessity for metal composite. This task is usually used in explosion welding or explosion crimping and other methods, 2 or more metal plates with the explosion energy combined together to create a composite material. Throughout the metal composite process, a metallurgical reaction occurs between different metals, forming a strong metallurgical bond.
Surface treatment is usually required to enhance the surface quality and corrosion resistance of the explosive welding plate. Widely used surface treatment methods include spraying, plating, chemical plating and so forth. These techniques can increase the wear resistance, corrosion resistance and aesthetics of the composite plate.
Explosive welding composite plate production process, although simple, flexible production, but the technical requirements are high, difficult to accurately control, the parent material properties (toughness, impact properties, etc.), explosives properties (bursting speed stability, safety, etc.), the initial parameters (the quantity of explosives per unit area, the base compound plate spacing, etc.) and the dynamic parameters (collision angle, the compound plate collision speed, etc.) of the choice and system coordination of the composite plate of the finished product yield and quality features a direct impact.
The composite interface includes direct bonding area, melting layer and vortex. Atomic diffusion exists in the bonding interface, and severe plastic deformation with work hardening occurs in the bonding zone. The bonding surface features a wavy structure, that is beneficial to the improvement of bonding strength and tensile strength.
Explosive welding plate performance
Explosive welding explosive welding plate is not going to alter the chemical composition and physical state of the original material, according to the actual needs of the composite material to become individually processed into the required optimal state.
Explosive welding plate application performance is very good, can withstand cold, hot processing without changing the thickness of the mixture of materials than the mixture of composite materials is extremely high strength, usually greater than the low side of the mixture of materials, that is unattainable by other technologies. The composite material is not going to delaminate or crack during subsequent heat treatment, leveling, cutting, rolling, spinning and other production.
For room temperature and 550 ? heat treatment of carbon steel surface layer (near the interface layer) has serious deformation brought on by fibrous tissue and several fine particles, the center of the organization of ferrite plus pearlite; stainless steel interface for your second phase of point-like organization, the center of the needle-like organization. But by 650 ? treatment of carbon steel samples near the interface section of small particles of the organization disappeared (that may occur decarburization), the grain becomes coarse, the center of the organization is still ferrite plus pearlite, but could not be seen in the business of the slip line produced by deformation; as well as in the stainless steel interface you will find a large number of small black particles, titanium steel composite plate may be the decarburization of chromium carbide particles formed after the advantages of the fabric into a whole, giving full play to the use of different metal materials, and greatly save rare and rare materials, and the use of different metal materials. The use of performance greatly saves rare metal materials, thus reducing the production cost of equipment.
Weak demand and oversupply in Asia have pushed steelmakers in the area to develop supplies of low-carbon steel and iron, especially as the Jan. 31 reporting deadline for your European Union’s Carbon Boundary Adjustment Mechanism (CBAM) draws nearer, market participants said.
The situation is further complicated by the fact that other Western countries, namely the U.S., are looking to introduce similar policies.
A Singaporean trader said, “Asian steel producers have not slowed down production and are looking to increase output, so we expect capacity additions to outpace demand growth, especially in the post-epidemic recovery period.” . “…… Products have to go somewhere. Producers can export to Europe, but this means they need to offer low-carbon products at huge discounts.”
Asia’s path to decarbonization has seen a number of breakthroughs, particularly as policymakers have focused on various climate targets and dealt with public and private stakeholders to develop low-carbon technologies.
These investments have enabled steelmakers to discover commercially viable technologies and reliable causes of clean energy, namely direct reduction of iron from scrap or gas, or shifting to electric arc furnace steelmaking, which has a lower carbon intensity when compared with blast furnaces.
Paolo Frediani, senior analyst at Fastmarkets, said the market is reacting towards the steadily growing demand for green steel, given the quantity of pipeline investment.
“CBAM will certainly give a major boost [in developing a green steel supply chain], but regardless of the advanced regulation of steel emissions in Europe, the green steel premium is largely supported by the fact that increasingly more end-users are trying to reduce their overall carbon footprint,” says Frediani. “While this drive is stronger in certain regions than others, it really is being a global phenomenon.”
Explosive composite explosion welding advantages
Explosive composite this new process, new technology in a short period of time to obtain rapid development and wide application, the primary reason is it has the following four advantages:
(1) A number of composite materials could be combined it will make the melting point, strength, coefficient of thermal expansion and other performance differences are incredibly disparate metal combinations to achieve composite. Such as aluminum – steel, titanium – steel. Currently has realized the composite material combination of more than 300 kinds, that is incomparable to other methods.
(2) Excellent material properties
Composite plate of the general design principle would be to meet the mechanical properties of the structure of the base material, compound plate to meet the corrosion or wear resistance and other properties. Therefore, in comparison with just one metal plate, the composite plate makes full use of the best performance of the substrate, and the compound plate not just has the required high strength but also has excellent corrosion resistance, wear resistance, and other properties of high production efficiency.
(3) High production efficiency/high bond strength.
Explosive composite in a really short period of time, and can be welded spanning a large area, an area of up to 20 square meters or more, within the composite interface, dissimilar metals with the metal bond to achieve inter-atomic bonding is normally not less than the minimum of the strength of the composite material constituting the respective parent body.
(4) Good economy
The use of explosion welding technology to create composite plate products have both corrosion resistance of the compound layer and other functional characteristics and both the strength of the grass-roots level and plastic toughness indicators, you can save precious metal resources, reduce costs.
Use of explosive welding plate
Composite materials produced by the explosive welding method continues to be widely used in petroleum, chemical, shipbuilding, electronics, electric power, metallurgy, machinery, aerospace, atomic energy and other industrial fields. The composite plate is carbon steel being a substrate, single-sided or multi-faceted with precious metals being a double layer of high-efficiency energy-saving new composite materials, composite by explosion welding of special processing technology, both using the corrosion resistance of precious metals, wear resistance, but also with carbon steel, good weldability, molding, extensibility, thermal conductivity; explosive welding plate is now widely used within the petrochemical industry, metallurgy, salt production and alkali production, the water industry, Nuclear industry.
In shipbuilding, explosive welding plates can be used to manufacture hull structures, decks, bulkheads, etc. Because of its high strength and good corrosion resistance, the explosive welding plate can effectively enhance the durability and service life of the ship.
Within the aerospace field, explosive welding composite plates can be used to manufacture airplane fuselage, wings, engine parts, etc. Because of its good thermal stability and high strength, explosive welding composite plate can enhance the performance and safety of aircraft.
Within the construction industry, explosive welding composite plates can be used to manufacture structural parts for bridges, high-rise buildings, highways, and so forth. Because of its high strength and good corrosion resistance, explosive welding composite plate can enhance the safety and service life of buildings.
In automobile manufacturing, explosive welding composite plates can be used to manufacture body structural parts, engine parts, and so forth. Because of its lightweight, high strength, and good thermal stability, the explosive welding plate can enhance the performance and safety of automobiles.
Explosive welding plate cladding of metals supplier
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