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Nickle Based Alloy
Nickle Based Alloy
Nickle Based Alloy

Nickel Based Alloy

Nickel based alloy is an important metal material, which is mainly composed of nickel (Ni) and other alloying elements (such as chromium (Cr), iron (Fe), molybdenum (Mo), tungsten (W), etc.).
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Introduction
Application
Specification
Process
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Introduction
Product Introduction

Nickel based alloy is an important metal material, which is mainly composed of nickel (Ni) and other alloying elements (such as chromium (Cr), iron (Fe), molybdenum (Mo), tungsten (W), etc.). This alloy is widely used in aerospace, petrochemical, nuclear and electronics industries because of its excellent corrosion resistance, oxidation resistance, high temperature stability and good mechanical properties.
IBC Metal Group has a large-scale production base and advanced production lines to achieve large-scale production and supply. This can not only meet the needs of customers, but also improve production efficiency and reduce the cost per unit of product.

What is a nickel alloy
Product Application
Aerospace field
The application of nickle based alloys in the aerospace field is very critical. Due to their high temperature and corrosion resistance, nickel based alloys are widely used in the manufacture of engine components, gas turbine blades, and other critical components that work in high temperature and high pressure environments.
Chemical and petrochemical fields
In the chemical and petrochemical industries, this alloy is widely used for its excellent corrosion resistance. It can be used to make reactors, heat exchangers, pipes, and other equipment that comes into contact with corrosive chemicals.
Energy and environmental protection
In the field of energy, it is used to manufacture key components of thermal power plants and nuclear power plants, such as boiler tubes, reactor pressure vessels, etc. In addition, in the field of environmental protection, it is also used in flue gas desulfurization units and wastewater treatment equipment, etc., to help reduce environmental pollution.
Medical device field
It plays an important role in medical device manufacturing. For example, Nitinol (Ni-Ti) alloys are widely used in the manufacture of medical devices, such as stents and catheters, due to their shape memory effects.
Marine field
In the Marine environment, Nickel alloy plate is used in the manufacture of Marine structures, seawater desalination equipment and seawater heat exchangers because of its excellent corrosion resistance.
Specification
Product Specification
Material style GB/T UNS DIN/EN Density Welding material
NI200 N02200 2.4060 8.9 E(R)NI-1
NI201 N02201 2.4061 8.9 E(R)NI-1
Hastelloy B-3 N10675 2.4600 9.22 E(R)NiMo-10
Hastelloy B-2 NS322 N10665 2.4617 9.22 E(R)NiMo-10
Hastelloy B NS321 N10001 9.22 E(R)NiMo-10
Hastelloy C-276 NS334 N10276 2.4819 8.89 E(R)NiCRMo-4
Hastelloy C-22 N06022 2.4602 8.69 E(R)NiCRMo-10
Hastelloy C-2000 N06200 2.4675 8.5 E(R)NiCRMo-17
Hastelloy C-4 NS335 N06455 2.4610 8.6 E(R)NiCRMo-7
Hastelloy C-30 N06030 8.23 E(R)NiCRMo-11
Hastelloy C-35 N06035 8.18 G-35 Filler Wire
Hastelloy C-3 N06985 8.3
Hastelloy D-205 7.99
Hastelloy HR-160 N12160 8.08
Haynes 230 N06230 8.97
Haynes HR-120 N08120 8.07
Haynes 242 N10242 9.05
Hastelloy X GH3536/GH32 N06002 2.4665 8.22 ENICRMO-2/ERNIMO-2
Inconel 625 GH3625/NS336 N06625 2.4856 8.44 E(R)NICRMO-3
Inconel 718 GH4169 N07718 2.4668 8.23 E(R)NIFECR-2
Inconel X-750 GH4145 N07750 2.4669 8.25 E(R)NIFECR-2
Monel 400 Ni68Cu28Fe N04400 2.4360 8.8 E(R)NICU-7
Monel K-500 Ni68Cu28Al N05500 2.4375 8.5 E(R)NICU-7
Process
Product Process
01
Smelting and preparation
The preparation of nickel based alloys first involves the smelting process, that is, the extraction of nickel and other alloying elements from ores or other raw materials by various chemical and physical methods. These elements are then mixed in specific proportions to produce nickel alloy materials through smelting, casting or powder metallurgy.
02
Heat treatment
They often need to be heat treated to adjust their structure and properties. This includes solution treatment, aging treatment, annealing and other processes to eliminate the internal stress of the material, improve the grain structure, and improve the mechanical properties and corrosion resistance of the alloy.
03
Processing molding
This alloy material can be processed into products of various shapes and sizes by forging, rolling, extrusion, drawing and other processes, such as sheet, pipe, bar, wire and so on. These molding processes require the selection of appropriate process parameters according to the characteristics of the material and the requirements of the final application.
04
Welding and connection
In the application of nickel based alloys, welding is a common operation. It has good welding performance and can be reliably connected by various welding methods (such as TIG welding, MIG welding, electron beam welding, etc.). The welding process requires strict control of welding parameters to ensure the quality and performance of the welded joint.
05
Surface treatment and protection
In order to further improve the corrosion resistance of alloy products and extend their service life, it is often necessary to perform surface treatment on materials, such as spraying, coating, etc. These treatments enhance the surface protection of the alloy against corrosive media in the environment.
06
Testing and evaluation
Testing and evaluation of the properties and quality of this alloy is an important link to ensure its safe and reliable use. This includes chemical composition analysis, mechanical properties testing, corrosion resistance testing, etc., to ensure that the alloy meets the design requirements and service standards.
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