AtaCelik Stainless Steel Foundry

Castings for Valve and Pump industry.

Heat Treatment Industry Spare parts, Baskets, Bottoms, Grates and Fixtures.

Concrete Pump parts castings and Mixer parts.

Cement Industry Spares Cooler Plates, Nozzles, Grate bars.

Incineration Industry Biomass Furnace Grate Bars Reciprocating Grates.

Castings for General Machine Industry.

Customised Castings according to your needs.

Iron Castings Terminology

Austenitize - to convert the matrix of a ferrous alloy to austenite by heating above the transformation temperature.

Batch - the component raw materials properly weighed, proportioned, and mixed for delivery to a processing unit. Also, the product output from a processing unit in which there is essentially no product output until all component materials are charged and processed.
Carbide, primary - carbide precipitated in cast iron during solidification.

Cast iron - a generic term for a series of alloys primarily of iron, carbon, and silicon in which the carbon I in excess of the amount which can be retained in solid solution in austenite at the eutectic temperature.

Cementite - a very hard and brittle compound of iron and carbon corresponding to the empirical formula Fe3C, commonly known as iron carbide.
Cementite, primary - cementite precipitated in cast iron during solidification. Also known as primary carbide.

Chilled iron - a cast iron that would normally solidify as a gray cast iron which is purposely caused to solidify as white cast iron locally or entirely by accelerated cooling caused by contact with a metal surface, that is, a chill.

Direct reduced iron - iron ores that have been reduced to essentially metallic iron by heat and reducing agents, but without melting, and processed into suitable shapes for use as a charge material in a melting operation.

Dual metal - two metals of different composition that are fusion bonded at all interfacial surfaces by casting metal of one composition against metal of a second composition.

Ductile iron - a cast iron that has been treated in the liquid state so as to cause substantially all of its graphitic carbon to occur as spheroids or nodules in the as-cast condition.

Ferritize - to increase the quantity of ferrite in the matrix of a ferrous casting through an appropriate heat treatment.

Ferritizing anneal - the process of producing a predominantly ferritic matrix in cast iron through an appropriate heat treatment.

Graphite, compacted - a graphite shape that is intermediate between flake graphite and nodular graphite that typically appears in a polished section as thick flakes with blunt ends.

Graphite, flake - an irregularly shaped particle of graphite, usually appearing in a polished section as curved plates, such as found in gray cast irons.

Graphite, nodular - spheroidal shaped graphite typically found in ductile irons and compact clusters of graphite typically found in malleable irons.

Graphite, primary - graphite precipitated in cast iron during solidification.

Graphite rosette - arrangement of graphite flakes in which the flakes extend radially from centers of crystallization in gray cast iron.

Graphite, spheroidal - spheroidal shaped graphite having a polycrystalline radial structure, usually found in ductile iron and to a controlled, limited extent in compacted graphite iron.

Graphitize - to precipitate graphite in an iron-carbon alloy.

Gray iron - cast iron that has a relatively large proportion of the graphitic carbon present in the form of flake graphite. The metal has a gray fracture.

Heat - the total molten metal output from a single heating in a batch melting process or the total metal output from essentially a single heating in a continuous melting operation using basically constant charge and processing conditions and targeted at a fixed metal chemistry at the furnace spout. A heat can also be defined as a fixed time period for a continuous melting operation provided that it is shorter than the time period covered by the above definition.

Inoculating alloy - an alloy added to molten iron for the principle purpose of nucleating a primary phase such as graphite. Inoculating alloys are frequently used to avoid the formation of primary carbide by enhancing the nucleation of graphite.

Malleable, ferritic - a ferrous alloy that is cast as white is converted by an appropriate heat treatment to a microstructure of temper carbon embedded in a ferritic matrix essentially free of pearlite and carbide.

Malleable iron - a cast iron of such composition that it solidifies as white iron, which upon proper heat treatment is converted to a metallic matrix with nodules of temper carbon.

Malleable, pearlitic - a ferrous alloy that is cast as white iron but which is converted by an appropriate heat treatment to a microstructure of temper carbon embedded in a matrix containing a controlled quantity, form, and distribution of pearlite or tempered martensite.

Malleableize - to convert white iron into malleable iron through an appropriate graphitizing heat treatment.

Melt - the total molten metal produced in a single heat.

Merchant pig iron - pig iron produced for commercial sale to foundries.

Mottled iron - a cast iron containing a mixed structure of gray iron and white iron of variable proportions. The fracture has a mottled appearance.

Nodular graphite - graphite in the form of nodules or spheroids in iron castings.

Nodularity - the volumetric proportion of spheroidal or nodular graphite to total graphite in a ductile iron or a compacted graphite iron matrix.
Nodularity, degree of - the volumetric proportion of spheroidal or nodular graphite to total graphite in a ductile iron matrix.

Nodulizing alloy - an alloy added to molten iron for the primary purpose of causing the formation of spheroidal graphite during solidification.

Pig iron - the high carbon iron product obtained by the reduction of iron ores, typically in a blast furnace or an electric furnace, and cast into uniform shapes having physical and chemical characteristics suitable for end as foundry melting stock.

Sample - one or more portions of a liquid or solid material taken in an unbiased manner from a batch, heat, lot or process stream to be representative of the whole, for subsequent testing to determine the chemical, physical, mechanical, or other quality characteristics of the material, or combination thereof.

Temper carbon - compact aggregates or nodules of graphite found in malleable iron as a result of heat treatment.

Test bar - a bar-shaped coupon that is tested with or without subsequent preparation for the determination of physical or mechanical properties.

Test coupon - specially designed casting, or portion thereof, that is used to provide a representative sample of the iron from which it was cast.

Test lug - a sample produced as an appendage on a casting, that may be removed and tested to qualify the casting or the iron which it was produced.

Test specimen - a test object, suitably prepared from a sample, for evaluation of the chemical, physical, mechanical, or metallurgical quality of the sample.

Treated iron - molten cast iron to which all basic alloys and nodulizing alloys have been added but not necessarily all inoculating alloy additions.

White iron - cast iron in which substantially all of the carbon is in solution and in the combined form. The metal has a white fracture.

Air-Hardening Steel

Sometimes referred to as self-hardening steel. A steel
that becomes fully hardened when cooled in air from
above its critical point and does not require rapid
quenching by oil or water. The risk of distortion is
greatly reduced by air hardening. High Speed Steel was
one of the earliest examples of this type of steel.

Alloy Steel

A steel to which one or more alloying elements other
than carbon have been deliberately added (e.g.
chromium, nickel, molybdenum) to achieve a particular
physical property.

Annealing

Heating steel to, and holding at a suitable temperature,
followed by relatively slow cooling. The purpose of
annealing may be to remove stresses, to soften the
steel, to improve machinability, to improve cold working
properties, to obtain a desired structure. The annealing
process usually involves allowing the steel to cool slowly
in the furnace.

Arc Furnace

A steel melting furnace in which heat is generated by an
arc between graphite electrodes and the metal. Both
carbon and alloy steels are produced in electric arc
furnaces and scrap rather than molten metal is used as
the base material. Furnaces with capacities up to 200
tons are now in use.

Austempering

Quenching from a temperature above the transformation
range to a temperature above the upper limit of
martensite formation, and holding at this temperature
until the austenite is completely transformed to the
desired intermediate structure, for the purpose of
conferring certain mechanical properties.

Austenite The solid solution of carbon in gamma (face centered
cubic) iron.

Austenitic Steels

Steels containing high percentages of certain alloying
elements such as manganese and nickel which are
austenitic at room temperature and cannot be hardened
by normal heat-treatment but do work harden. They are
also non-magnetic. Typical examples of austenitic steels
include the 18/8 stainless steels and 14% manganese
steel.

Bend Test

Bending tests are carried out to ensure that a metal
has sufficient ductility to stand bending without
fracturing. A standard specimen is bent through a
specified arc and in the case of strip, the direction of
grain flow is noted and whether the bend is with or
across the grain.

Bright Drawing

The process of drawing hot rolled steel through a die
to impart close dimensional tolerances, a bright, scale
free surface, and improved mechanical properties. The
product is termed bright steel.

Brinell Hardness Test

The Brinell hardness test for steel, involves impressing
a ball 10 mm diameter, of hard steel or tungsten
carbide, with a loading of 3000 kilograms into the
steel surface. The hardness of the steel is then
determined by measurement of the indentation. For
steels with a hardness over 500 BHN the Vickers test
is more reliable.

Carbon

Carbon is an essential element in steel, it is added
in specific amounts to control the hardness and
strength of the material. In general, increased
carbon content reduces ductility but increases
tensile strength and the ability of the steel to
harden when cooled rapidly from elevated
temperatures.

Carbon Steel

A steel whose properties are determined primarily
by the amount of carbon present. Apart from iron
and carbon, manganese up to 1.5% may be
present as well as residual amounts of alloying
elements such as nickel, chromium, molybdenum,
etc. It is when one or more alloying elements are
added in sufficient amount that it is classed as an
alloy steel.

Carburising

The introduction of carbon into the surface layer of
a steel that has a low carbon content. The process
is carried out by heating the components in a solid
liquid, or gaseous carbon containing medium. The
depth of penetration of carbon into the surface is
controlled by the time and temperature of the
treatment. After carburising it is necessary to
harden the components by heating to a suitable
temperature and quenching.

Case-Hardening

The process of hardening the surface of steel
while leaving the interior unchanged. Both carbon
and alloy steels are suitable for case-hardening
providing their carbon content is low, usually up to
a maximum of 0.2%. Components subject to this
process, particularly in the case of alloy steels,
have a hard, wear-resistant surface with a tough
core.

Cast Iron

A definition can be applied that Cast Iron is an
alloy of iron and carbon in which the carbon is in
excess of the amount that can be retained in solid
solution in austenite at the eutectic temperature.
Carbon is usually present in the range of 1.8% to
4.5%, in addition, silicon, manganese, sulphur and
phosphorus are contained in varying amounts.
Various types of cast iron are covered by a British
Standard classification and includes grey, malleable
and white irons. Elements such as nickel,
chromium, molybdenum, vanadium can be added to
produce alloy cast irons.

Cast Steel

A term originally applied to crucible steel and
sometimes today used to describe tool steels. The
term is misleading and is falling into misuse. It can
also be applied to steel castings made by pouring
molten steel into a mold but which are not subject
to further forging or rolling.

Coefficient of Expansion

The ratio of change in length, area, or volume per
degree to the corresponding value at a standard
temperature.

Deoxidation

Elements such as silicon and aluminium when
added to molten steel react to form stable
oxides and reduce the amount of dissolved
oxygen. The solubility of oxygen in steel is
reduced as temperature is lowered during
solidification and the excess oxygen combines
to form carbon monoxide. If the molten metal
is not deoxidised the effervescence produced
by the evolution of carbon monoxide during
solidification would result in blow holes and
porosity. Steel treated in this way is termed,
"Killed Steel".

Alloy

Cast Specifications

Wrought Specifications

ASTM

UNS

AISI

UNS

1008

G10080

1020

A27/A148 (Suitable grades)

J02500/01

1020

G10200

1025

A27/A148 (Suitable grades)

J02500/01

1025

G10250

1030

A27/A148 (Suitable grades)

J03000/01

1030

G10300

1040

J04000

1040

G10400

1045

J04500

1045

G10450

LCA

A352 Gr LCA

J02504

1025

G10230

LCB

A352 Gr LCB

J03003

1030

G10300

LCC

A352 Gr LCC

J02505

1025

G10250

WCA

A216 Gr WCA

J02502

1025

G10250

WCB

A216 Gr WCB

J03002

1030

G10300

WCC

A216 Gr WCC

J02503

1025

G10250

Alloy

Cast Specifications

Wrought Specifications

ASTM

UNS

AISI

UNS

4130

A487 Gr 9A-E/A915SC4130

J13045/048/345

4130

G41300

4140

A915SC 4140

J14047/49

4140

G41400

4325

A487 Gr10A&B

J23015

4325

4330

A487 Gr10A&B/A915SC4330

J23015

4330

G43300

4340

A915SC 4340

J24054/55

4340

G43400

8615

A487 Gr4A-E

J13047/J11442

8615

G86150

8620

A487 Gr4A-E/A915 SC8620

J13047/J12047/48

8620

G86200

8625

A487 Gr4A-E/A915SC8625

J13047/J12047/48

8625

G86250

8630

A487 Gr4A-E/A915SC8630

J13047/049

8630

G86300

8635

8637

G86370

LC2

A352 Gr LC2

J22500

LC2-1

A352 Gr LC2-1

J42215

LC3

A352 Gr LC3

J31550

LC4

A352 Gr LC4

J41500

WC6

A217 Gr WC6

J12072

WC9

A217 Gr WC9

J21890

A217 Gr C5

J42045

C12

A217 Gr C12

J82090

C12A

A217 Gr C12A

CrMo

Various

A148 all Grades

Alloys selected on basis of properties and section size

Alloy

Cast Specifications

Wrought Specifications

ASTM

UNS

SAE

UNS

CF3

A351/743/744 CF3

J92500

304L

S30403

CF8

A351/743/744 CF8

J92600

304

S30400

CF3M

A351/743/744 CF3M

J92800

316L

S31603

CF3MN

A351/743/744 CF3MN

J92804

316LN

S31653

CF8M

A351/743/744 CF8M

J92900

316

S31600

CF8C

A351/743/744 CF8C

J92710

347

S34700

CG3M

A351/743/744 CG3M

J92999

317L

S31703

CG8M

A351/743/744 CG8M

J93000

317

S31700

CN7M

A351/743/744 CN7M

J95150

ALLOY 20

CG6MMnN

A351/743 CG6MMnN

J93790

209

S20910

CF10SMnN

A351/743 CF10SMnN

J92972

218

S21800

904L

No Cast Grade

N08904

904L

N08904

Alloy

Cast Specifications

Wrought Specifications

ASTM

UNS

AISI

UNS

CA3NM

A487 CA6NM Cl B

J91540

S4150

CA6NM

A487 CA6NM Cl A

J91540

S4150

CA6NM

A352/A356/A743 CA6NM

J91540

S4150

CA15

A217/A487/A743 CA15

J91150

410

S4100

CA40

A743 CA40

J91153

420

S4200

248SV

Avesta 248SV

Alloy

Cast Specifications

Wrought Specifications

ASTM

UNS

Common Name

UNS

Nickel CZ100

A494 CZ-100

N02100

Alloy 200

Monel M35-1

A494 M-35-1

N24135

Alloy 400

N04400

Monel M30-C

A494 M-30-C

N24130

Alloy 411

N-12MV

A494 N-12MV

N30012

Alloy B

N10001

N-7M

A494 N-7M

N30007

Alloy B2

N10665

CY-40

A494 CY-40

N06040

Alloy 600

N06600

CW-12MW

A494 CW-12MW

N30002

Alloy C/C276

N10002

CW-6M

A494 CW-6M

N30107

Alloy C Mod

CW-2M

A494 CW-2M

N26455

Alloy C4

N06455

CW-6MC

A494 CW-6MC

N26625

Alloy 625

N06625

CX2MW

A494 CX2MW

N26022

Alloy C22

N06022

CU5MCuC

A494 CU5MCuC

N08826

Alloy 825

N08825

Alloy

Cast Specifications

Other Specifications

ASTM

UNS

SAE/ASTM

Common

Heat Resistant Grey Iron

HRI 1

A319 Class I(A-D)

F10001

HRI 2

A319 Class II(A-D)

F10002

HRI 3

A319 Class III(A-D)

F10003

Austenitic Grey Iron

Type 1

A436 Type 1

F41000

Ni-Resist #1

Type 2

A436 Type 2

F41002

Ni-Resist #2

Austenitic Ductile Iron

Type D2-B

A439 Type D2-B

F43001

Ductile Ni-Resist D2B

Type D5-B

A439 Type D5-B

Ductile Ni-Resist D5B