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Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier

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Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier

Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier
Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier

Large Image :  Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier

Product Details:

Place of Origin: China
Brand Name: Non-Standard
Certification: ISO9001
Model Number: Non-Standard

Payment & Shipping Terms:

Minimum Order Quantity: 1 Ton
Price: quote according to different drawing technique requirements
Packaging Details: Plywood crate + VCI Anti-Rust Bag
Delivery Time: within 60 days
Payment Terms: T/T, L/C
Supply Ability: 300 Tons every month
Detailed Product Description
Material: ASTM A297/A297M GradeHD Process: Investment Casting Process
Machining: CNC Machining Surface: Anti-Rust Oil
Packing: Plywood Crate + VCI Anti-Rust Bag Heat Treatment: According To The Requirement
High Light:

heat resistant cast iron


high temperature cast iron

Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier



Product Description and Process

Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier


Production process: green sand molding, lost wax investment casting process

Machining process: CNC machining

Surface treatment process: None


Product Material and Uses

Normally produce with ASTM A297/A297M GradeHD, GradeHF, GradeHH, GradeHK, GradeHP GradeHK-40, GradeHL, GradeHP, GradeHW, GradeHC, GradeHN, ZG30Cr26Ni5, ZG35Cr26Ni12, ZG30Ni35Cr15, ZG40Cr28Ni16, ZG35Ni24Cr18Si2, ZG40Cr25Ni20, ZG40Cr30Ni20, ZG45Ni35Cr26, ZG35Cr24Ni7SiN, ZG35Cr28Ni16, etc.


The heat resistant steel casting products are widely used for heat-engine plant industry, furnace for heat treatment, cast industry, steel industry, turbine components, aircraft industry, etc.


Properties and Applications of high temperature alloys:


ASTM A297 (HC - UNS S92605)


Has a good amount of Chromium for good oxidation resistance at temperatures up to 2000 F (1093 C). Low nickel content to maintain greater resistance to sulphur bearing environments at 2000 F (1093 C).



Cement, Glass, Heat Treating, Industrial Furnace, Oil Refining, Ore Processing, Paper, Power | Zinc Refining |Boiler baffles | Electrodes | Furnace Grate Bars | Gas Outlet Dampers | Kiln Parts | Lute Rings | Rabble Blades and Holders | Recuperators | Salt Pots | Soot Blower Tubes | Support Skids | Tuyeres | Excellent for operational environments involving combustion gases, flue gases, high sulfur, and molten neutral salts | Grate Bars | Molten Salt Pots | Furnace Skids | Injector Tubes | Slag Tapping Blocks | Carbon Disulphide Reformer Coils


ASTM A297 (HD- UNS J93005) / ASTM A608 (HD50 - UNS J93015 )


Austenitic with some ferrite (weakly magnetic and cannot be hardened much ).



Load-bearing operations where temperatures don't exceed 1200 F (649 C)| Light load-bearing operations with temperature max 1900 F (1040 C) | Surfur resistance | Oxidation Resistance | Good Weldability | Centrifugal Castings | Brazing Furnace Components for the copper, glass, heat treating, oil refining, ore processing industries |Cracking Equipment | Furnace Blowers | Pouring Spouts | Gas Burner Parts | Holding Pots | Cement Kiln Ends | Roaster furnace rabble arms and blades |recuperater sections | Handling of Combustion and Flue Gases | Handling of High Sulfur Atmospheres | Handling of Copper Alloys and Molten Copper | Rotary Kiln Ring Entrance


ASTM A297 - J93303 (HH) / ASTM A447 - J93503 (HH I and HH II) / ASTM A608 ( HH30 - UNS J93513 / HH33 - UNS J93633)


Good Strength / oxidation resistance at 1400 - 1800 F (760-982 C ) maximum operating temperature 2000 F (1093 C).



Rabble arms and blades | grate bars | cement kiln cooling chain and shackles | tuyeres | furnace burner nozzles | radiant heater tubes and fittings | tube supports and hangers | tube sheets | heat treatment furnace hardware | furnace retorts and muffles | inderizing sidewalls |Annealing trays | billet skids | burner nozzles | carburizing boxes | convection tube supports | dampers, exhaust manifolds | flue gases stacks | grate supports | hardening trays | kiln nose ring segments | normalizing discs | pier caps | quenching trays | radiant tubes and supports | refractory supports | retorts | roller hearths and rails | stoker parts | tube hangers | Elbows


ASTM A297 (HK ) / A351 (HK30 and HK40) / A567 (HK40 and HK50 - 1987 Discontinued Specifications) / A608 (HK30 and HK40)


The HK alloy steel has been the industry standard for 40 plus years due to its moderately high temperature strength, resistance to hot gas and sulfur-bearing hot gas corrosions, oxidation resistance, high creep and rupture strengths, and carburization resistance. Often used in structiral applications up to 2100 F (1150 C) . Often used in as cast condition; it has good machinability and very weldable without the required preheat or post heat.


HK30 and HK 40 are often used for pressure-containing parts used in environments with elevated temperature and corrosive service ( in reference of ASTM A351) and centrifugally cast parts ( ASTM A608)



Furnace Tubes and Calcining| Ammonia, Molten Neutral Salts, Methanol and Hydrogen Reformers | Ethylene Pyrolysis Coils and Fittings | Steam Super-heater Tubes and Fittings | Tube Supports and Hangers | Tube Sheets | Heat Treatment Fixtures and Trays | Refractory Supports | Furnace Skids | Furnace Rolls | Rabble Arms |Steam Hydrocarbon Reformer | Elbows



Heat Resistant Steel Castings Manufacturer High Chromium Alloy Steel Casting Supplier 0


Heat Resistant Steels


The properties of steel and its yield strength considerably decrease as the steel absorbs heat when exposed to high temperatures. Heat resistance means that the steel is resistant to scaling at temperatures higher than 500 deg C. Heat resistant steels are meant for use at temperatures higher than 500 deg C since they have got good strength at this temperature and are particularly resistant to short and long term exposure to hot gases and combustion products at temperature higher than 500 deg C. These steels are solid solution strengthened alloy steels. As these steels are used over a certain broad temperature ranges, these steels are usually strengthened by hard mechanism of heat treatment, solid solution and precipitation. All the heat resistant steels are composed of several alloying elements for the purpose of achieving the desired properties and are used in applications where resistance to increased temperatures is critical.


The level of the heat resistance of the heat resistant steels depends on the environment conditions in which they operate and cannot be characterized by a single testing method. Maximum service temperatures which can be extended to 1150 deg C depending on the alloy content can be severely reduced by the presence of some compounds such as sulphurous compounds, water vapour or ash. Resistance to molten metal and slag is also limited in these steels.


In heat resistant steels, the two most important elements are chromium for oxidation resistance and nickel for strength and ductility. Other elements are added to improve these high temperature properties. The effect of various alloying elements is described below.

Chromium – Chromium is the one element which is present in all the heat resistant steels. Besides imparting oxidation resistance, chromium adds to high temperature strength and carburization resistance. Chromium is the element which makes the micro structure ferritic.

Nickel – Nickel when added to the heat resistant steels increases its ductility, high temperature strength and resistance to both carburizing and nitriding. Nickel tends to make the atomic structure austenitic. It decreases the solubility of both carbon and nitrogen in austenite.

Carbon – Carbon is the most important strengthening element. Carbon is controlled within certain limits in heat resistant steels. Most heat resistant steels contain 0.05 % to 0.10 % of carbon. Cast heat resistant steels have usually 0.35 % to 0.75 % of carbon. Carbon dissolves in alloy and induces solution strength. It is also present as small, hard particles called carbides which are chemical compounds of carbon with metallic elements such as chromium, molybdenum, titanium and niobium etc.

Nitrogen – Nitrogen is present in heat resistant steels in small amounts and serves to strengthen both martensitic and austenitic steels.

Silicon – Silicon decreases the solubility of carbon in the metal, which is an important variable in the steel making process. It is a strengthening element normally above 0.04 %. Silicon improves oxidation and carburization resistance, as well as resistance to absorbing nitrogen for heat resistant steels at high temperature.

Sulphur – It is regarded as impurity and is commonly specified as upper limit in the heat resistant steels. Sulphur is detrimental to weldability but it improves machinability.

Phosphorus – Phosphorus is usually an undesirable element in heat resistant steels since it has brittle effect when it segregates at the grain battery. It is also harmful to nickel alloy weldability. It is normally specified as upper limit for most of the heat resistant steels.

Other alloying elements – Other alloying elements used in the heat resistant steels are manganese, molybdenum, titanium, vanadium, tungsten, aluminum, cobalt, niobium, zirconium, copper, and the rare earth elements like boron, cerium, lanthanum and yttrium. These elements improve the steels integrative properties at elevated temperature. While some elements are used for strength others are used mostly for oxidation resistance, process workability and microstructure stability.


Generally there are two fundamental classes of heat resistant steels. These are given below:

Ferritic/martensitic heat resistant steels

These steels have the same body centered cubic crystal structure (Fig 1) as that of iron. These steels consist basically of iron with small percentage of alloying elements. The main alloying element is chromium with percentage ranging from 2 % to 13 %. These steels also contain small percentages of carbon, silicon, manganese, molybdenum, aluminum and nitrogen. These elements help in precipitation hardening which supports the high temperature behaviour of the steel. Ferritic steels have transformation free ferritic structure. These steels display relatively low toughness under impact loading. Above 900 deg C these steels suffer grain coarsening combined with embrittlement. Ferritic steels are difficult to form and hence should only be welded by arc welding. The steels are insensitive to sulphurous gases. Ferritic grades are more popular heat resistance steels since they are economical because of lower alloying elements in them. These are also called low alloy heat resistant steels. Besides chromium, some of the alloying elements present in the ferritic grades are molybdenum, tungsten, niobium, vanadium, boron and titanium etc. The oxidation resistance of these steels at red hot conditions is in direct proportion to the chromium content of the steel. Ferritic/martensitic steels used for high temperature service can be classified into two categories based on the content of alloying elements and the microstructures. The first category of these steels are called low alloy steels having 1 % to 3 % chromium in them and with total alloying elements of less than 5 %. The second category of these steels is martensitic heat resistant steels. These steels include medium chrome steels with a chromium content of 5 % to 9 % and high chrome steels with a chromium content of 9% to 12 %. The total alloying elements in these steels ranges from 10 % to 20 %. High chrome steels have better creep strength.

Austenitic heat resistant steels

When sufficient nickel (more than 8 %) is added to the iron chromium steels, the steel structure becomes transformation free austenitic structure which has a face centered cubic crystal structure (Fig 1). Austenitic steels have higher strength, ductility and creep rupture strength than the ferritic/martensitic steels. Their high toughness makes them insensitive to impact loads and abrupt temperature changes. Austenitic steels are not prone to the grain coarsening at high temperatures. These steels have higher elevated temperature strength as well as creep strength than ferritic steels. At room temperature the austenitic steels are more ductile, display good formability and generally easier to fabricate. These steels are sensitive to sulphurous gases. Machining of these steels is more difficult as compared to ferritic steels. Austenitic steels are more expensive because of their higher alloy content.


Heat Resistant Steel Casting

Grade and Chemical Composition

Grade C Si Mn Cr Ni Mo N P S
ZG40Cr9Si2 0..35-0.5 2-3 ≤0.7 8-10 - - - ≤0.035 ≤0.03



0.26-0.36 1.6-2.4 11-13 17-20 - - 0.22-0.28 ≤0.06 ≤0.04



0.3-0.4 1.3-2.0 0.8-1.5 23-25.5 7-8.5 - 0.2-0.26 ≤0.04 ≤0.03



0.3-0.4 1.5-2.5 ≤1.5 17-20 23-26 - - ≤0.035 ≤0.03
ZG30Cr26Ni5 0.2-0.4 ≤2 ≤1 24-28 4-6 ≤0.5 - - -
ZG30Cr20Ni10 0.2-0.4 ≤2 ≤2 18-23 8-12 ≤0.5 - - -
ZG35Cr26Ni12 0.2-0.5 ≤2 ≤2 24-28 11-14 - - - -
ZG35Cr28Ni16 0.2-0.5 ≤2 ≤2 26-30 14-18 ≤0.5 - - -
ZG40Cr25Ni20 0.35-0.45 ≤1.75 ≤1.5 23-27 19-22 ≤0.5 - - -
ZG40Cr30Ni20 0.2-0.6 ≤2 ≤2 28-32 18-22 ≤0.5 - - -
ZG30Ni35Cr15 0.2-0.35 ≤2.5 ≤2 13-17 33-37 - - - -
ZG45Ni35Cr26 0.35-0.75 ≤2 ≤2 24-28 33-37 ≤0.5 - - -
ZGCr28 0.5-1 ≤2 ≤1 26-30 - - - - -

Physical Character 

Grade Heat Treatment

Yield Strength

σ0.2 ≥

Tensile Strength


δ5(%) ≥

MPa Kgf/mm2 MPa Kgf/mm2
ZG40Cr9Si2 9500C Anneal - - 550 55 -



- - - 490 49 8



- 340 34 540 54 12



- 195 19.5 390 39 5
ZG30Cr26Ni5 - - - 590 59 -
ZG30Cr20Ni10 - 235 23.5 490 49 2.3
ZG35Cr26Ni12 - 235 23.5 490 49 8
ZG35Cr28Ni16 - 235 23.5 490 49 8
ZG40Cr25Ni20 - 235 23.5 440 44 8
ZG40Cr30Ni20 - 245 24.5 450 45 8
ZG30Ni35Cr15 - 195 19.5 440 44 13
ZG45Ni35Cr26 - 235 23.5 440 44 5
ZGCr28 - - - 340 34 -

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