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ASTM A686-92(2010)

(Specification)

Standard Specification for Tool Steel, Carbon

Standard Specification for Tool Steel, Carbon

ABSTRACT
This specification covers chemical, mechanical, and physical requirements for available wrought carbon tool steel products. These products, which include hot- or cold-finished bar, plate, sheet, rod, wire, or forgings, are normally fabricated into tools, dies, or fixtures. The selection of a material for a particular application will depend upon design, service conditions, and desired properties. An analysis of each heat of steel shall be made by the manufacturer to determine the percentage of the elements specified and these values shall conform to the chemical composition specified by the reference material. The hardness of the specimen after the specified heat treatment shall meet the minimum hardness value for the particular type of steel prescribed by the reference material. Rockwell C tests should be used where possible but light load tests may be necessary on thin specimens. The macrostructure of a specimen representing the entire cross-sectional area in the annealed condition shall be prepared in accordance with the reference material. It shall exhibit a structure free of excessive porosity, segregation, slag, dirt or other nonmetallic inclusions, pipes, checks, cracks, and other injurious defects.
SCOPE
1.1 This specification covers the chemical, mechanical, and physical requirements for available wrought carbon tool steel products.  
1.2 These products, which include hot- or cold-finished bar, plate, sheet, rod, wire, or forgings, are normally fabricated into tools, dies, or fixtures. The selection of a material for a particular application will depend upon design, service conditions, and desired properties.  
1.3 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are provided for information only.

General Information

Status
Historical
Publication Date
30-Sep-2010
ICS
77.140.10 - Heat-treatable steels
Technical Committee
A01 - Steel, Stainless Steel and Related Alloys
Drafting Committee
A01.29 - Tool Steels
Current Stage
Ref Project

Relations

Replaces
ASTM A686-92(2004) - Standard Specification for Tool Steel, Carbon
Effective Date
01-Oct-2010
Replaced By
ASTM A686-92(2016) - Standard Specification for Tool Steel, Carbon
Effective Date
01-Mar-2016

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ASTM A686-92(2010) - Standard Specification for Tool Steel, CarbonASTM A686-92(2010) - Standard Specification for Tool Steel, Carbon
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ASTM A686-92(2010) - Standard Specification for Tool Steel, Carbon
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NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
Designation:A686 −92(Reapproved 2010)
Standard Specification for
Tool Steel, Carbon
This standard is issued under the fixed designation A686; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision.Anumber in parentheses indicates the year of last reapproval.A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the U.S. Department of Defense.
1. Scope 2.2 Military Standard:
MIL-STD-163 Steel Mill Products, Preparation for Ship-
1.1 This specification covers the chemical, mechanical, and
ment and Storage
physical requirements for available wrought carbon tool steel
2.3 Federal Standards:
products.
Fed. Std. No. 123Marking for Shipment (Civil Agencies)
1.2 These products, which include hot- or cold-finished bar,
Fed.Std.No.183ContinuousIdentificationMarkingofIron
plate,sheet,rod,wire,orforgings,arenormallyfabricatedinto
and Steel Products
tools, dies, or fixtures. The selection of a material for a
particular application will depend upon design, service 3. Classification
conditions, and desired properties.
3.1 Material in accordance with this specification is classi-
fied by chemical composition. Types correspond to respective
1.3 Thevaluesstatedininch-poundunitsaretoberegarded
AISI designations.
as the standard. The values given in parentheses are provided
3.1.1 Carbon Tool Steels, Identification W—TypesW1,W2,
for information only.
and W5 are often referred to as water hardening tool steels
since they require rapid quenching rates to attain the necessary
2. Referenced Documents
hardness. Except in very small sizes they will harden with a
2.1 ASTM Standards:
hard case and a soft core.
A370Test Methods and Definitions for Mechanical Testing
3.1.1.1 Type W1 is an unalloyed carbon steel available in
of Steel Products
several carbon ranges.
A388/A388MPractice for Ultrasonic Examination of Steel
3.1.1.2 Type W2 is characterized by a nominal vanadium
Forgings
content of 0.25% and is also available in several carbon
A561Practice for Macroetch Testing of Tool Steel Bars
ranges.
A700Guide for Packaging, Marking, and Loading Methods
3.1.1.3 Type W5 is characterized by a nominal chromium
for Steel Products for Shipment
content of 0.50%.
E3Guide for Preparation of Metallographic Specimens
3.1.1.4 A suffix following the type designation is added to
E30TestMethodsforChemicalAnalysisofSteel,CastIron,
denote the minimum carbon content of the carbon range to be
Open-Hearth Iron, and Wrought Iron (Withdrawn 1995)
specified.
E45Test Methods for Determining the Inclusion Content of
3.1.2 Types W1 and W2 are further classified by quality
Steel
levels, namely, Grade A and Grade C.
E59Practice for Sampling Steel and Iron for Determination
3.1.2.1 GradeAissometimesreferredtoas Extraor Special.
of Chemical Composition (Withdrawn 1996)
It is controlled for hardenability; the chemical composition is
held to closest limits; and it is subject to rigid tests to ensure
uniformity. Grade A is available with three degrees of
This specification is under the jurisdiction ofASTM Committee A01 on Steel, hardenability, namely, shallow hardening, regular hardening,
Stainless Steel and RelatedAlloys and is the direct responsibility of Subcommittee
and deep hardening.
A01.29 on Tool Steels.
3.1.2.2 Grade C is sometimes referred to as Regular or
Current edition approved Oct. 1, 2010. Published December 2010. Originally
Standard. It is intended for applications that do not require
approved in 1973. Last previous edition approved in 2004 as A686–92 (2004).
DOI: 10.1520/A0686-92R10.
controlledhardenabilityandwheresomelatitudeinuniformity
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
is permissible.
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website.
3 4
The last approved version of this historical standard is referenced on AvailablefromStandardizationDocumentsOrderDesk,Bldg.4SectionD,700
www.astm.org. Robbins Ave., Philadelphia, PA 19111-5094, Attn: NPODS.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
A686−92 (2010)
4. Ordering Information midway between the center and surface in accordance with the
latest issue of Practice E59. The chemical analysis of the
4.1 Ordersformaterialunderthisspecificationshallinclude
drilling chips shall be made in accordance with the latest issue
the following information, as required to describe adequately
of Test Methods E30. The chemical composition thus deter-
the desired material:
mined shall not vary from the limits specified in Table 1.
4.1.1 Class of material (carbon tool steel),
4.1.2 Type (W1, W2, W5),
7. Hardness Properties
4.1.3 Suffix denoting carbon range (where applicable, such
as W1–9, W2–10, etc.),
7.1 Annealed hardness values shall be obtained in accor-
4.1.4 Grade and hardenability (where applicable, for
dance with the latest issue of Test Methods and Definitions
example, Grade A deep hardening, and so forth),
A370, and shall not exceed the Brinell hardness values (or
4.1.5 Shape (sheet, plate, flat bar, round bar, square bar,
equivalent Rockwell hardness values) specified in Table 2.
hexagon bar, octagon, special shapes),
7.2 Specimens for determination of minimum response to
4.1.6 Dimensions (thickness, width, diameter, length),
hardening shall be ¼-in. (6.4-mm) thick disks cut so as to
4.1.7 Finish (hot rolled, forged, blasted or pickled, cold
represent either the full cross-sectional area or that midway
drawn, machined, ground, precision ground and polished),
between the center and outer surface of the material. If the
4.1.8 Condition (annealed, unannealed, hardened and
material form or size does not lend itself to accurate hardness
tempered, and so forth),
determination on ¼-in. (6.4-mm) thick cross-sectional disks,
4.1.9 ASTM specification number and date of issue, and
then longitudinal specimens may be used for hardness testing.
4.1.10 Special requirements.
Examplesareroundbarslessthan ⁄2in.(12.7mm)indiameter
orsheet.Inthiscase,thespecimenshallbeaminimumof3in.
5. Materials and Manufacture
(76.2 mm) in length and parallel flats shall be ground on the
5.1 Unless otherwise specified, material covered by this
original mill surfaces. The specimens shall be heat treated as
specification shall be made by an electric melting process. It
prescribed in Table 3.
shall be made from ingots that have been reduced in cross
7.2.1 The hardness of the specimen after the specified heat
section in such a manner and to such a degree as to ensure
treatment shall meet the minimum hardness value for the
proper refinement of the ingot structure.
particular type of steel shown in Table 3. Rockwell C tests
should be used where possible but light load tests may be
6. Chemical Composition
necessaryonthinspecimens.Thesetestsshouldbespecifiedby
6.1 An analysis of each heat of steel shall be made by the
agreement between seller and purchaser. The hardness value
manufacturer to determine the percentage of the elements
shall be obtained in accordance with the latest issue of Test
specified and these values shall conform to the chemical
Methods and Definitions A370, and shall be the average of at
composition specified in Table 1. If requested or required, the
least five readings taken in an area midway between the center
chemical composition shall be reported to the purchaser or his
and surface of the largest dimension of the cross-sectional
representative.
specimen or along the parallel surfaces of the longitudinal
6.2 Analysis may be made by the purchaser from finished specimen. The surface to be tested shall be ground sufficiently
bars and forgings by machining off the entire cross section and to remove any surface condition, scale, carburization, or
drilling parallel to the axis of the bar or forging at any point decarburization which might affect readings.
A
TABLE 1 Chemical Composition,%
UNS Type Grade Carbon Man- Silicon Phos- Sulfur, Chromium Vanadium Tung- Molyb- Copper, Nickel,
Desig- ganese phorus, max sten, denum, max max
nation max max max
min max min max min max min max min max
BB
T72301 W1 A 0.10 0.40 0.10 0.40 0.030 0.030 . . . 0.15 . . . 0.10 0.15 0.10 0.20 0.20
BB
T72301 W1 C 0.10 0.40 0.10 0.40 0.030 0.030 . . . 0.30 . . . 0.10 0.15 0.10 0.20 0.20
CC
T72302 W2 A 0.10 0.40 0.10 0.40 0.030 0.030 . . . 0.15 0.15 0.35 0.15 0.10 0.20 0.20
CC
T72302 W2 C 0.10 0.40 0.10 0.40 0.030 0.030 . . . 0.30 0.15 0.35 0.15 0.10 0.20 0.20
T72305 W5 . 1.05 1.15 0.10 0.40 0.10 0.40 0.030 0.030 0.40 0.60 . . . 0.10 0.15 0.10 0.20 0.20
A
Chemistry limits include product analysis tolerances.
B
The carbon ranges for W1 and their respective suffix identification, sometimes referred to as tempers, are as follows:
Suffix Carbon Range, % Suffix Carbon Range, %
8 0.80–0.90 10 1.00–1.10
1 1
8 ⁄2 0.85–0.95 10 ⁄2 1.05–1.15
9 0.90–1.00 11 1.10–1.20
1 1
9 ⁄2 0.95–1.05 11 ⁄2 1.15–1.25
C
The carbon ranges for W2 and their respective suffix identification are as follows:
Suffix Carbon Range, %
8 ⁄2 0.85–0.95
9 0.90–1.00
9 ⁄2 0.95–1.10
13 1.30–1.50
A686−92 (2010)
TABLE 2 Maximum Brinell Hardness in Annealed or Cold Drawn
material. Lower limits of decarburization may be specified by
Condition
agreement between the seller and purchaser.
Type Annealed BHN Cold Drawn BHN
9.2 Material ordered as ground and polished or ground
W1 202 241
W2 202 241
finished or machine finished shall be free of scale and
W5 202 241
decarburization.
Drill Rod (W1, W2, or W5)
Ordered Diameter, in. (mm) Brinell Rockwell
10. Permissible Variations for Dimensions
To ⁄8 (3.2) HB 341 HRC 37
1 1
Over ⁄8 to ⁄4 (3.2 to 6.4), incl HB 275 HRC 28 10.1 Permissible variations for dimensions shall not exceed
1 1
Over ⁄4 to ⁄2 (6.4 to 12.7), incl HB 241 HRC 23
the applicable limits stated in Table 6, and Tables 10-22 and
Over ⁄2 (12.7) HB 207 HRB 96
Note 1.
NOTE 1—Unmachined tool steel forgings are furnished to size and
surface allowances for machining and tolerances over allowances. Expe-
7.2.2 HardnesspenetrationandfracturegrainsizeforGrade
rienceindicatesthattheallowancesandtolerancesinthetabulationbelow
A shall be determined on test pieces of ⁄4 in. (19.1 mm)
are satisfactory for many applications. When width and thickness differ,
diameter and 3 in. (76.2 mm) length. Two pieces for each test
each dimension carries its individual allowance and tolerance in accor-
shall be given a preliminary treatment by heating uniformly to dance with the tabulation: also, the ID and OD take their respective
allowances and tolerances. When forgings are ordered, the purchaser
1600 6 10°F (871 6 5°C) and holding at temperature for 40
should state whether the sizes are the forged or the finished sizes. The
min,thenquenchinginoil.Onepieceshallbereheatedto1450
minimum sizes ordered for forgings should be the finished sizes plus
6 10°F (788 6 5°C) and the other to 15506 10°F (843 6
allowances for machining; and the ordered forged sizes are subject to
5°C). Each piece shall be held in the furnace at the respective
applicable tolerances
temperature for 30 min and then quenched in brine (5 to 10%
10.2 Out-of-round tolerances for round bars shall be one
sodium chloride solution). The pieces shall be nicked with an
half the permissible dimensional variations stated in Table 6,
abrasive wheel in the center of the length and fractured. The
Table 10, Table 12, Table 14, Table 15, and Table 17.
fracture face of one portion of each broken test piece shall be
ground smooth and etched in1+1 muriatic acid at 165°F
11. Workmanship, Finish, and Appearance
(74°C) for measurement of the depth of penetration to be
11.1 Allcarbontoolsteelsshallbefreeofheavyscale,deep
expressed in 64ths of an inch. The fracture grain size shall be
pitting, laps, porosity, injurious segregations, excessive non-
determined on the remaining portion of each broken test piece
metallicinclusions,seams,cracks,checks,slivers,scalemarks,
bycomparisonofthefracturesurfaceofthehardenedcasewith
dents, soft and hard spots, pipes, or any defects that would
the Shepherd Fracture Grain Size Standards. These standards
detrimentallyaffectthesuitabilityofthematerialafterremoval
consist of ten pieces of steel with fracture faces representing
of the recommended stock allowance.
graduated grain sizes from the coarsest (No. 1) to the finest
(No. 10). The fracture grain size is estimated to the nearest
12. Sampling
quarter number. The hardness penetration and fracture grain
12.1 Each particular shipment of a heat of steel by type,
sizeforGradeAshallmeettherequirementsshowninTable3.
size, and shape shall be considered a lot and must conform to
8. Macrostructure
the provisions of this specification.
8.1 The macrostructure of a specimen representing the
13. Inspection
entire cross-sectional area in the annealed condition shall be
prepared in accordance with the latest issue of Practice A561.
13.1 When specified in the purchase order, the inspector
It shall exhibit a structure free of excessive porosity, representing the purchaser shall have access to the material
segregation, slag, dirt or other nonmetallic inclusions, pipes,
subjecttoinspectionforthepurposeofwitnessingtheselection
checks, cracks, and other injurious defects. of samples, preparation of test pieces, and performance of the
tests. For such tests, the inspector shall have the right to
8.2 Macroetch severity levels for center porosity and ingot
indicate the pieces from which samples will be selected.
pattern,illustratedphotographicallyinPracticeA561,shallnot
Otherwise, the seller shall report to the purchaser, or his
exceed the ratings specification in Table 4 for the appropriate
representative, the results of the chemical analysis and the
materialsizeandcomposition.Morestringentrequirementsare
physical and mechanical property tests made in accordance
available by agreement between seller and purchaser.
with this specification.
9. Decarburization
14. Rejection and Rehearing
9.1 Decarburization shall be determined on a specimen
14.1 Unless otherwise specified, any rejections based on
representing a cross section of the material and prepared in
tests made in accordance with this specification shall be
accordance with the latest issue of Guide E3. When examined
reportedtothesellerwithin30daysfromthedateofreceiptof
at 20× or greater magnification it shall not exceed the values
the material.
given in Tables 5-9 for the appropriate size and shape of
14.2 Material that shows injurious defects subsequent to its
acceptance by the purchaser shall be rejected and the se
...

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Standard Specification for Structural Steel for Bridges

ABSTRACT
This specification covers carbon and high-strength low alloy steel structural shapes, plates and bars, and quenched and tempered alloy steel for structural plates intended for use in bridges. Heat analysis shall be used to determine the percentage of carbon, manganese, phosphorus, sulfur, silicon, and copper for the required chemical composition. A tension test shall be used to determine the required tensile properties such as tensile strength, yield strength, and elongation. Materials shall undergo: (1) an impact test for non-fracture critical and fracture critical members; and (2) a Brinell hardness test for Grades 100 and 100W. Atmospheric corrosion resistance shall also be determined.
SCOPE
1.1 This specification covers carbon and high-strength low-alloy steel structural shapes, plates, and bars, quenched and tempered alloy steel, and stainless steel for structural plates intended for use in bridges. Twelve grades are available in five yield strength levels as follows:    
Grade U.S. [SI]  
Yield Strength, ksi [MPa]    
36 [250]  
36 [250]    
50 [345]  
50 [345]    
50S [345S]  
50 [345]    
QST 50 [QST 345]  
50 [345]    
QST 50S [QST 345S]  
50 [345]    
50W [345W]  
50 [345]    
HPS 50W [HPS 345W]  
50 [345]    
50CR [345CR]  
50 [345]    
QST 65 [QST450]  
65 [450]    
QST 70 [QST485]  
70 [485]    
HPS 70W [HPS 485W]  
70 [485]    
HPS 100W [HPS 690W]  
100 [690]  
1.1.1 Grades 36 [250], 50 [345], 50S [345S], 50W [345W], 50CR [345CR], QST 50 [QST 345], QST 50S [QST 345S], QST 65 [QST 450], and QST 70 [QST 485] are also included in Specifications A36/A36M, A572/A572M, A992/A992M, A588/A588M, A1010/A1010M (UNS S41003), and A913/A913M respectively. When the requirements of Table 11 or Table 12 or the supplementary requirements of this specification are specified, they exceed the requirements of Specifications A36/A36M, A572/A572M, A992/A992M, A588/A588M, A1010/A1010M (UNS S41003), and A913/A913M. Product availability is shown in Table 1.    
1.1.2 Grades 50W [345W], 50CR [345CR], HPS 50W [HPS 345W], HPS 70W [HPS 485W], and HPS 100W [HPS 690W] have enhanced atmospheric corrosion resistance (see 13.1.2). Product availability is shown in Table 1.            
1.2 Grade HPS 70W [HPS 485W] or HPS 100W [HPS 690W] shall not be substituted for Grades 36 [250], 50 [345], 50S [345S], 50W [345W], or HPS 50W [HPS 345W]. Grade 50W [345W], or HPS 50W [HPS 345W] shall not be substituted for Grades 36 [250], 50 [345] or 50S [345S] without agreement between the purchaser and the supplier.  
1.3 When the steel is to be welded, it is presupposed that a welding procedure suitable for the grade of steel and intended use or service will be utilized. See Appendix X3 of Specification A6/A6M for information on weldability.  
1.4 For structural products to be used as tension components requiring notch toughness testing, standardized requirements are provided in this standard, and they are based upon American Association of State Highway and Transportation Officials (AASHTO) requirements for both fracture critical and non-fracture critical members.  
1.5 Supplementary requirements are available but shall apply only if specified in the purchase order.  
1.6 The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard.  
1.7 For structural products produced from coil and furnished without heat treatment or with stress relieving only, the additional requirements, including additional testing requirements and the reporting of additional test results, of Specification A6/A6M apply.  
1.8 This international standard was developed in accordance with internationally recognized principles on standardizati...

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ASTM
ASTM A572/A572M-21e1(Specification)
Standard Specification for High-Strength Low-Alloy Columbium-Vanadium Structural Steel

ABSTRACT
This specifiation covers the standard requirements for Grades 42 [290], 50 [345], 55 [380], 60 [415], and 65 [450] of high-strength low-alloy columbium-vanadium structural steel shapes, plates, sheet piling, and bars for applications in bolted, welded, and riveted structures in bridges and buildings. The alloy shall conform to the required contents of columbium, vanadium, titanium, and nitrogen. Permissible values for the product thickness and size is given. Tensile requirements (including yield point, tensile strength, and minimum elongation) and alloy content are also specified. General delivery and test report requirements are also cited.
SCOPE
1.1 This specification covers five grades of high-strength low-alloy structural steel shapes, plates, sheet piling, and bars. Grades 42 [290], 50 [345], and 55 [380] are intended for riveted, bolted, or welded structures. Grades 60 [415] and 65 [450] are intended for riveted or bolted construction of bridges, or for riveted, bolted, or welded construction in other applications.  
1.2 For applications, such as welded bridge construction, where notch toughness is important, notch toughness requirements are to be negotiated between the purchaser and the producer.  
1.3 Specification A588/A588M shall not be substituted for Specification A572/A572M without agreement between the purchaser and the supplier.  
1.4 The use of columbium (niobium), vanadium, titanium, nitrogen, or combinations thereof, within the limitations noted in Section 5, is required; the selection of type (1, 2, 3, or 5) is at the option of the producer, unless otherwise specified by the purchaser. (See Supplementary Requirement S90.)  
1.5 The maximum thicknesses available in the grades and products covered by this specification are shown in Table 1.    
1.6 When the steel is to be welded, a welding procedure suitable for the grade of steel and intended use or service is to be utilized. See Appendix X3 of Specification A6/A6M for information on weldability.    
1.7 The values stated in either inch-pound units or SI units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system are not exact equivalents; therefore, each system is to be used independently of the other, without combining values in any way.  
1.8 The text of this specification contains notes or footnotes, or both, that provide explanatory material. Such notes and footnotes, excluding those in tables and figures, do not contain any mandatory requirements.    
1.9 For structural products produced from coil and furnished without heat treatment or with stress relieving only, the additional requirements, including additional testing requirements and the reporting of additional tests, of Specification A6/A6M apply.  
1.10 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM A649/A649M-10(2020)(Specification)
Standard Specification for Forged Steel Rolls Used for Corrugating Paper Machinery

ABSTRACT
This specification deals with the standard requirements for premium quality alloy steel semifinished rolled or forged blooms and billets for reforging into aircraft and aerospace critical parts such as landing-gear forgings. Covered here are three basic classifications of steel, namely: Class I, steel manufactured by vacuum-induction melting or consumable-electrode vacuum melting process; Class II, air-melted steel manufactured by electric-furnace vacuum degassing process; Class III, air-melted steel manufactured by electric-furnace ladle refining and vacuum degassing processes. Steel materials shall be heat-treated and hot-worked by either hot rolling or forging. Alloy steels shall be examined by heat and product analyses and hardenability tests, and shall conform to chemical composition and maximum annealed Brinell hardness requirements. Quality evaluation tests, such as macrotech, microcleanliness, and nondestructive ultrasonic (both immersion and contact examination) inspection, shall be performed as well.
SCOPE
1.1 This specification2 covers two kinds of rolls used in machinery for producing corrugated paperboard. Rolls are fabricated of forged bodies and trunnions. The trunnions may be bolted or shrink assembled on one or both ends of the body. A seal weld may be made at the body/trunnion interface. Roll shells are made of carbon/manganese, or low alloy steel as hereinafter described, and are heat treated prior to assembly. Pressure rolls may be ordered surface hardened as Condition H, or without surface hardening as Condition S. Provision is made in Supplementary Requirements S1 and S3 for the optional surface hardening of corrugating rolls.  
1.2 Corrugating and pressure rolls made to this specification shall not exceed 30 in. [760 mm] in inside diameter. The wall thickness of the roll body shall not be less than 1/12 of the inside diameter or 1 in. [25 mm], whichever is greater, but shall not exceed 4 in. [100 mm]. The wall thickness of the corrugating roll is measured at the bottom of the corrugations in the location of the trunnion fit. The maximum design temperature (MDT) of the roll is 600 °F [315 °C] and the maximum allowable working pressure (MAWP) is 250 psi [1.7 MPa]. The minimum design temperature shall be 40 °F [4 °C] for roll wall thicknesses up to 3 in. [75 mm]. For roll wall thicknesses over 3 in. [75 mm] to 4 in. [100 mm], the minimum design temperature shall be 120 °F [50 °C]. The maximum stresses on the roll bodies from the combined internal and external loading are limited to 18 750 psi [129 MPa] for the Class 2 pressure roll bodies, and 20 000 psi [138 MPa] for Class 1A, 1B, or 5 pressure or corrugating roll bodies in Grades 1 or 2. For the trunnions, the maximum stresses from the combined internal and external loading are limited to 15 000 psi [103.4 MPa] for Classes 3 or 4, or 20 000 psi [138 MPa] for Classes 1A, 1B, or 5 in Grade 2 only. The Grade 1 strength level is not permissible for trunnions.  
1.3 Referring to Table 1, material to Classes 1A, 1B, or 5 shall be used for the manufacture of corrugating or pressure roll shells, and Class 2 shall be used only for pressure roll shells. Trunnions shall be made from forgings in Classes 1A, 1B, or 5 in Grade 2 strength level as restricted by Footnote B in Table 2 or in forgings in either Class 3 or 4.    
1.4 The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system are not necessarily exact equivalents; therefore, to ensure conformance with the standard, each system shall be used independently of the other, and values from the two systems shall not be combined.  
1.5 Unless the order specifies the applicable “M” specification designation, the material shall be furnished to the inch-pound units.  
1.6 Except as specifically required in this standard, all of the provisions of Specification A788/A788M apply.  
1.7 This international standard was de...

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ASTM
ASTM A295/A295M-14(2020)(Specification)
Standard Specification for High-Carbon Anti-Friction Bearing Steel

ABSTRACT
This specification covers high-carbon bearing-quality steel to be used in the manufacture of anti-friction bearings. Materials shall conform to chemical compositions as specified herein, and to physical size and shape as agreed upon between the manufacturer and purchaser. Steels shall exhibit fine fracture grain size when quenched from normal austenitizing temperatures. Decarburization and surface imperfections shall not exceed the limits also specified herein. When annealing is specified in the order, the steel shall adhere to hardness requirements and have a completely spheroidized microstructure, which shall accordingly be rated and reported as carbide size, carbide network, and lamellar content.
SCOPE
1.1 This specification covers high-carbon bearing-quality steel to be used in the manufacture of anti-friction bearings.  
1.2 Supplementary requirements of an optional nature are provided and when desired shall be so stated in the order.  
1.3 The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system are not necessarily exact equivalents; therefore, to ensure conformance with the standard, each system shall be used independently of the other, and values from the two systems shall not be combined.  
1.4 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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