D1.8 Seismic Supplement Welding Manual
A General Overview of AWS D1.8 Structural Welding Code - Seismic Supplement
Structural Welding Code
Seismic Supplement
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D1.8 Seismic Supplement Welding Manual
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Customer Assistance Policy
The Lincoln Electric Company sells welding consumables and related equipment. On occasion, purchasers
may ask the Company for advice or information about the use of these products. As a customer
accommodation, our employees respond without charge based on information provided and their knowledge
of Lincoln Electric products. Lincoln Electric offers no guarantee or warranty, and assumes no liability, with
respect to such information or advice; nor does it assume any responsibility for updating or correcting any
such information or advice once it is given; nor does its provision of information or advice create, expand or
alter any warranty with respect to the sale of the Company’s products. Lincoln Electric expressly disclaims
any warranty of any kind, including any warranty of fitness for any particular purpose, with respect to such
information or advice. The selection and use of products sold by Lincoln Electric is solely within the control
of, and remains the sole responsibility of, the customer.
Document Updates
The information contained in this document is believed to be accurate at the time of printing and is subject
to change as additional information and data becomes available. Examples of such modifications include,
but are not limited to, the incorporation of additional product data and alterations due to AWS D1.8 updates.
manual references other documents not published by Lincoln Electric. Those documents are also subject to
change, and the reader is encouraged to check the latest edition of referenced documents for any changes
that might affect the content of this manual.
This document is an update to Lincoln Electric’s 2008 D1.8 Seismic Supplement Welding Manual and
reflects changes made to the AWS D1.8 Structural Welding Code - Seismic Supplement in 2009.
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D1.8 Seismic Supplement Welding Manual
Background
In January 1994, the Northridge, California earthquake caused unexpected damage to a number of welded
steel-framed buildings in the greater Los Angeles area. The Federal Emergency Management Agency (FEMA)
funded a variety of investigations that sought to address both the immediate and long-term needs related to
solving the performance problems associated with welded steel moment-frame connections. Several
documents were published as a result of these investigations, including Recommended Specifications and
Quality Assurance Guidelines for Steel Moment-Frame Construction for Seismic Applications (FEMA 353)1.
FEMA 353 discusses what has come to be known as the “Pre-Northridge Connection” and concluded that
“…the typical moment-resisting connection detail employed in steel moment-frame construction prior to
the 1994 Northridge earthquake… had a number of features that rendered it inherently susceptible to brittle
fracture. These included the following:
ꢀꢀThe most severe stresses occurred in the connection
ꢀꢀ“Wildcat” welding position
ꢀꢀConnection detail makes it hard to inspect
ꢀꢀSignificant flexural stresses on the beam flange at the column face
ꢀꢀWeld access hole geometry
ꢀꢀHigh restraint
ꢀꢀWeak panel zones
The report continued on to say “…additional conditions contributed significantly to the vulnerability of
connections...” including:
ꢀꢀLow toughness FCAW-S welding the consumables
ꢀꢀLow redundancy
ꢀꢀMatching beam and column strength
FEMA 353 then proposed a variety of recommendations and quality assurance guidelines that addressed
various topics, including:
ꢀꢀOverall structural design
ꢀꢀConnection design
ꢀꢀConnection details
ꢀꢀMaterials, including both base metal and weld metal
ꢀꢀWorkmanship
ꢀꢀInspection
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The provisions within FEMA 353 were not binding but did become mandatory when incorporated into
Contract Documents.
While the FEMA recommendations were being drafted, the American Institute of Steel Construction (AISC)
and the American Welding Society (AWS) began to evaluate their specifications and codes and revise them to
incorporate the post-Northridge research on steel connections. AISC issued a variety of interim updates to the
Seismic Provisions, as well as complete new editions of the standard. Contained in these AISC documents are
a variety of welding-related provisions. The primary focus of the AISC Seismic Provisions, however, is on the
design of structures intended to resist seismically induced loads, including the design of the connections and
thus, some welding-related provisions.
During this same time period, the AWS D1 Structural Welding Committee formed a new subcommittee D1L,
charged with the responsibility of developing a new standard to address welding-related requirements for
buildings designed to resist seismically induced loads. Ultimately, this subcommittee produced and the D1
committee approved, AWS D1.8 Structural Welding Code-Seismic Supplement2.
Many of the changes made to the AISC and AWS standards were the direct result of the work sponsored by
FEMA. Some of the provisions directly reflect the recommendations of FEMA 353. In other cases, the initial
recommendations were modified by the AISC and AWS consensus committees. Finally, some FEMA 353
recommendations deemed to be unnecessary by the AISC or AWS committees were eliminated.
The FEMA-sponsored effort focused on moment-resisting connections, whereas the AISC and AWS
documents addressed other Seismic Force Resisting Systems (SFRS), thus justifying some additional
provisions that were not contained within FEMA 353. Therefore, these latest documents do more than
simply incorporate FEMA 353 provisions directly into AISC or AWS specifications.
AWS D1.8 was approved in 2005 and first printed and distributed in 2006. In 2009 the AWS published the
second edition of the AWS D1.8/D1.8M, Structural Welding Code - Seismic Supplement. Subsequent revisions
have also been made to this document.
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D1.8 Seismic Supplement Welding Manual
The Purpose and Use of This Manual
This manual has been prepared by The Lincoln Electric Company to assist our customers in complying
with the requirements of AWS D1.8. Additionally, a summary of important provisions is included to assist
engineers, steel detailers and inspectors. This manual does not address every provision of D1.8, and tends
to discuss only the general condition that will typically be encountered, versus unique situations that may
arise. Readers of this manual are encouraged to obtain and review a copy of AWS D1.8, which can be
purchased through the AWS (www.awspubs.com).
Reference to AISC specifications is also made throughout this manual. Copies of pertinent AISC documents
This manual does not in any respect act as a substitute for or in compliance with AWS D1.8 or AISC
specifications. Should any conflict exist between the content of this manual and these referenced
specifications, the documents as published by AISC or AWS should be taken as the authoritative reference.
To assist the user, applicable provisions as contained in D1.8:2009 are referenced at the end of paragraphs
describing the requirements.
Specifications
AWS.D1.8.and.Other.Specifications.
AWS D1.8 alone cannot be used to design, fabricate, erect and inspect a structure intended to
resist seismic loadings. Of necessity, D1.8 is used in conjunction with other construction documents,
specifications and codes. Importantly, D1.8 does not contain all the welding-related requirements.
The general interaction of D1.8 and welding-related provisions is outlined below.
AWS.D1.8.and.AISC.Specifications.
Three AISC specifications may apply to a project where seismic resistance is required: AISC 360
Specifications for Structural Steel Buildings3, AISC 341 Seismic Provisions for Structural Steel Buildings4,
and AISC 358 Prequalified Connections for Special and Intermediate Steel Moment Frames for Seismic
Applications5. These three documents will be referred to as AISC Specifications, AISC Seismic Provisions
and AISC Prequalified Connections, respectively, throughout the remainder of this manual.
The relationship between AWS D1.8 and the AISC Specifications is no different than that between the AISC
Specifications and AWS D1.1.
There is significant interaction between the AISC Seismic Provisions and D1.8. Typically, AISC Seismic
Provisions specify where and when certain welding related provisions apply, while AWS D1.8 will specify
how such provisions are implemented. For example, AWS D1.8 does not specify when steel backing must be
removed from a connection. However, when backing removal is required by AISC specifications, AWS D1.8
specifies how the backing is to be removed.
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The AISC’s Prequalified Connections document prescribes prequalified structural connections
(beam-to-column connections, for example, not to be confused with AWS prequalified welding procedure
specifications, or with prequalified joint details). As part of connection prequalification, welding-related
issues such as backing removal, weld tab removal, weld metal properties and inspection requirements
are prescribed.
AWS.D1.8.and.Other.AWS.Standards.
AWS D1.8 supplements AWS D1.1 Structural Welding Code—Steel6. D1.8 does not replace D1.1, and except
as modified by D1.8, all of D1.1 still applies when D1.8 is specified. See D1.8, clause 1.1.
AWS D1.8 is intended to be used on steel structures, where D1.1 applies. D1.8 should not, for example,
be used to supplement AWS D1.6 Structural Welding Code—Stainless Steel7. See D1.8, clause 1.3.
AWS D1.8 references the AWS A5 Filler Metal Specifications. Of particular interest is the reference to AWS
A5.20: 20058 since this specification has incorporated a new supplemental electrode designator, the “-D”
suffix. This suffix reflects a concept contained in both FEMA 353 and D1.8, that of high-low heat input
testing, discussed later in this manual. It is expected that future editions of AWS A5.29 will include a
similar supplemental designator.
AWS.D1.8.and.Contract.Documents...
Contract Documents are used to specify requirements that may modify provisions contained within codes.
In the case of D1.8, Contract Documents play an especially important role, since many provisions typically
required for buildings designed to resist seismic loading are not specified in D1.8. Rather, D1.8 requires that
when such provisions are to apply, the Engineer must specify them in the Contract Documents. Thus,
Contract Documents may be used to “customize” requirements around a specific project. The implication is
that one project governed by D1.8 may have significantly different requirements from another, because the
Contract Documents for the two projects are different.
AWS.D1.8.and.FEMA.353.
D1.8 and FEMA 353 are totally separate documents, and it would be impossible to impose both provisions to
govern a project without creating significant conflict and contradictions. However, qualifications and various
tests done to meet the criteria of FEMA 353 may be used to meet similar or identical requirements in D1.8.
Accordingly, such transfer of results is encouraged in D1.8, subject to the Engineer’s approval. For example,
the welder qualification test as prescribed in FEMA 353, Appendix B is similar to that specified in D1.8 Annex
D, and the D1.8 commentary specifically encourages the Engineer to accept previous welder qualification
testing done to FEMA 353 requirements.
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D1.8 Seismic Supplement Welding Manual
Overview of D1.8
Content.
FEMA 353 identified a variety of factors that made the pre-Northridge connection “…inherently susceptible
to brittle fracture...” and then listed variables that can be grouped into the broad categories of overall
structural design, connection design, connection details, materials, workmanship and inspection. While most
of the design-related issues are covered in AISC standards, D1.8 addresses connection details, materials,
workmanship and inspection issues.
These topics are covered in seven clauses as follows:
Clause 1
Clause 2
Clause 3
Clause 4
Clause 5
Clause 6
Clause 7
General Requirements
Reference Documents
Definitions
Welded Connection Details
Welder Qualification
Fabrication
Inspection
Following these clauses are eight mandatory annexes as follows:
Annex A
Annex B
Annex D
Annex E
Annex F
Annex G
Annex H
Annex I
WPS Heat Input Envelope Testing of Filler Metals for Demand Critical Welds
Intermix CVN Testing of Filler Metal Combinations (where one of the filler metals is FCAW-S)
Supplemental Welder Qualification for Restricted Access Welding
Supplemental Testing for Extended Exposure Limits for FCAW Filler Metals
Supplemental Ultrasonic Technician Testing
Supplemental Magnetic Particle Testing Procedures
Flaw Sizing by Ultrasonic Testing
Guidelines for the Preparation of Technical Inquiries for the Structural Welding Committee
Finally, the document concludes with an extensive commentary that provides background material and
explains the Structural Welding Committee’s intent behind many of the provisions, as well as an index.
New.Terminology.
In a manner that has been coordinated with the applicable AISC committees, D1.8 utilizes some new
terminology. An understanding of these terms, officially defined in Clause 3: Terms and Definitions of D1.8,
is necessary to properly apply the code.
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The seismic load resisting system (SLRS) has been renamed as seismic force resisting system (SFRS) to be
consistent with terminology as revised in AISC seismic provisions and is “the assembly of structural elements
in the building that resists seismic loads.” These are the specific components in a building, such as columns,
beams, girders and braces, and the connections that join those components designed to resist seismic loads.
The SFRS does not typically include all the various structural elements in a building. See D1.8, clause 3.1.
Demand Critical welds are defined as “welds designated by the Engineer in Contract Documents, and
required to meet specific requirements of this code.” The most rigorous requirements of D1.8 are imposed
upon welds designated as “Demand Critical” (DC). See D1.8, clause 3.2.
The protected zone (PZ) is “that portion of a member of the SFRS… in which inelastic straining is anticipated
to occur….” Special limitations apply to attachments and fabrication practices associated with this zone.
See D1.8, clause 3.3.
It is important to note that D1.8 requires the Engineer to specify in contract documents the locations of
members that are part of the SFRS, which welds are Demand Critical, and the portion of members that
comprise the protected zone. Illustrative examples are contained in the commentary, although such
examples are not prescriptive or definitive. Contract documents should contain the specific requirements
applicable to a particular project. See D1.8, clause 1.2.1.
Three.Kinds.of.Welds.
When a structure is designed in accordance with the AISC Seismic Provisions, the welds on the building will
fit into three categories. The applicable code depends on the characteristics of the weld, as illustrated in the
following table:
TABLE 1: CODE COVERAGE FOR VARIOUS WELDS
Not.Part.of.SFRS
Part.of.SFRS
Not Demand Critical
AWS D1.8
Demand Critical
AWS D1.8 DC
Code Coverage
AWS D1.1
Welds that are not on the SFRS as designated by the Engineer in contract documents are governed by
D1.1, and no special requirement for seismic considerations apply. Welds on the SFRS, but not designated
Demand Critical by the Engineer in contract documents, are governed by D1.8, but the additional provisions
for Demand Critical welds do not apply. Demand Critical welds (which, by definition, must be part of the
SFRS), are subject to all the applicable requirements of D1.8, as well as those additional provisions that
apply to Demand Critical welds. See D1.8, Commentary C-1.1.
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D1.8 Seismic Supplement Welding Manual
Differences between FEMA 353 and AWS D1.8
As was previously mentioned, much of D1.8 was based upon recommendations contained within FEMA 353.
However, differences between the two documents exist. In many cases, FEMA 353 recommendations are
not contained in D1.8, but rather reside in the applicable AISC specification. In some situations, the AWS
consensus committee made deliberate decisions to approach the issue in a different manner.
Contained below is a partial listing of some of the significant differences:
ꢀꢀThe complicated and complex “weld categories” as contained in FEMA 353 have been replaced
with the three broader and simpler categories as outlined previously in Table 1.
ꢀꢀDetails of the WPS Heat Input Envelope Testing have been modified. In D1.8, the root pass can be
made in a single pass (versus a split pass, as required in FEMA 353), and the position of welding is
no longer an essential variable for this test. See D1.8, Annex A.
ꢀꢀThe Supplemental Welder Qualification test was expanded to include a testing procedure to address
welder qualification when steel backing is not used, including where copper or ceramic backing is
used, as well as when open root joints are used. See D1.8, Annex D.
ꢀꢀTesting of the Supplemental Welder Qualification for Restricted Access Welding may be accomplished
by either radiographic testing (RT), ultrasonic testing (UT) or by mechanical testing (FEMA 353
permitted only mechanical testing or RT). Additionally, the typographical error as contained in FEMA
353 that called for 3/4 in. bend tests has been corrected in D1.8 to call for the intended 3/8 in. thick
bend specimens. See D1.8, Annex D.
ꢀꢀD1.8 contains more definitive alternatives to lot tested filler metals. See D1.8, clause 6.3.8.
ꢀꢀD1.8 specifically exempts the high/low heat envelope testing for the welding consumables when
SMAW is used with specific filler metals, and when GMAW is performed with solid electrodes.
See D1.8, clause 6.3.5.
ꢀꢀD1.8 has extended the standard exposure period for FCAW electrodes from 24 to 72 hours.
See D1.8, clause 6.4.3.
A variety of other changes have been made, and a careful review of the two documents must be made if
the user is interested in a comprehensive comparison.
Differences between AWS D1.8/D1.8M:2005
and AWS D1.8/D1.8M: 2009
The second edition of the AWS D1.8/D1.8M, Structural Welding Code – Seismic Supplement features editorial
and technical revisions from the previous edition. These revisions are primarily refinements or clarifications
of information presented in the 2005 edition.
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Significant revisions in the second edition are listed below. For more revisions please see pages vii-viii in the
AWS D1.8/D1.8M:2009.
ꢀꢀFigures 4.1 and 4.2 – New figures added to illustrate detail of the transition of butt joints
for unequal thicknesses.
ꢀꢀSubclause 6.3.2 – Clarified and corrected diffusible hydrogen requirements for filler metals.
ꢀꢀSubclause 6.3.6 – Modified to disallow exemptions from heat input envelope and classification
lot testing when lowest anticipated service temperature (LAST) is less than +50°F.
ꢀꢀSubclause CA5.2 – Removed the provision that required two passes per layer to fill the test plate.
It is now deemed acceptable to use single passes per layer since achieving acceptable results
under such conditions is typically more difficult than when split layers are used.
ꢀꢀSubclause C6.13 – Revised welder identifications requirements to permit methods other than the
use of stamps or marks on the piece.
A User’s Guide to AWS D1.8
Certain portions of D1.8 are more important to some parties than others, depending on their specific role
in the construction process. The following is a general summary of sections of particular interest to the
various participants in a construction project.
Engineers.
The primary tasks of the Engineer as they relate to D1.8 are contained in Clause 1.2.1, entitled
“Engineer’s Responsibilities.” The Engineer must identify, among other items, the following:
ꢀꢀMembers that comprise the SFRS
ꢀꢀLocations of the Protected Zones in members of the SFRS
ꢀꢀWelds that are Demand Critical
ꢀꢀLocations where steel backing is required to be removed
ꢀꢀLocations where fillet welds are required when backing is permitted to remain
ꢀꢀLocations where weld tabs are to be removed
ꢀꢀLocations where fillet welds are required to reinforce groove weld, or to improve connection geometry
ꢀꢀLocations of weld access holes, and their required shape
The Engineer is also required to develop a Quality Assurance Plan (QAP) for the project. AISC Seismic
Provisions Annex Q contains a recommended example of a QAP that the D1.8 commentary encourages
the Engineer to adopt without modification. See D1.8, clause 1.2.1.
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D1.8 Seismic Supplement Welding Manual
Structural.Detailers.
Table 2 provides a list of references to specific D1.8 code provisions of particular interest to the
structural detailer:
TABLE 2: SPECIFIC D1.8 CODE PROVISIONS
Structural.Detail
Access Holes
D1.8.Coverage
1.2.1(9), 6.9
1.2.1(5), 6.7, 6.8
1.2.1(6), 6.12
1.2.1(8), 6.8
4.1
Backing—Removal
Backing—Remaining in Place
Contouring Fillet Welds
Corner Clips
Demand Critical Welds
End Dams
1.2.1(4), 3.2
6.11
k-Area Detailing
3.6, 4.1
Protected Zone
1.2.1(3), 3.3, 6.6, 6.15
See Contouring Fillet Welds
1.2.1(2), 3.1
1.2.1(7), 6.10
6.6, 6.16
Reinforcing Fillet Welds
Seismic Force Resisting System (SFRS)
Tabs
Tack Welds
Tension Transition Butt Joints
1.2.1(11)
Fabricators.and.Erectors.
Much of D1.8 is directed to the Contractor performing the welding. The various provisions directed toward
the Contractor can be grouped into these major categories:
ꢀꢀWelder Qualification
ꢀꢀWelding Procedure Specifications (WPSs)
ꢀꢀFiller Metals
ꢀꢀTechniques
Welder Qualification
Clause 5 and Annex D of D1.8 are devoted to welder qualification. In addition to meeting the welder
qualification requirements of D1.1, welders performing work under D1.8 are required to take the
Supplemental Welder Qualification for Restricted Access Welding Test, as prescribed in Annex D, when
the production weld involves all of the following:
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D1.8 Seismic Supplement Welding Manual
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a) the weld is Demand Critical; and
b) the weld joins the beam bottom flange to a column flange; and
c) the weld must be made through a weld access hole in the beam web.
As mentioned above, the qualification of welders in accordance with Annex D is only required when all three
of these preceding conditions are part of the production weld. If any one is not present (i.e. a production weld
that is not made through a weld access hole) this qualification is not required, even though such a weld may
be Demand Critical. See D1.8, clause 5.1.1
The Annex D test was designed to simulate the restricted access conditions that are typically associated
with welding a beam bottom flange to a column in a moment connection. However, unlike the production
connection, the qualification test plate is a butt joint, permitting easier inspection and testing of the
completed weld. See D1.8, Annex D Figure D.1, D.2 and D.3.
Two test configurations are described in Annex D, known as Option A and Option B. Option A is to be used
when steel backing is specified on the WPS, while Option B is used for open root joints, or joints backed with
ceramic, copper or other non-steel materials. The type of test to be taken is dependent on the type of backing
(if any) that will be used in production, and as shown on the WPS. See D1.8, clause 5.1.3 and Annex D clause
D3.2, D3.3.
While the test plate can be tacked together by anyone, the welder must affix the weld tabs to the test plate.
Also, the welder is required to measure the preheat and interpass temperature of the test plate assembly.
See D1.8, Annex D clause D3.1.1, D3.1.3.
As is the case for D1.1, welders taking the Annex D test must qualify by welding process. In addition, the
test plate must be welded with a deposition rate equal to or higher than that which will be used in production.
It is wise, therefore, to use a slightly higher deposition rate in the welder qualification test so that the welder
will be qualified to use all production WPSs. See D1.8, Annex D clause D3.1.2
After the test plate is complete, the various restriction plates are removed and the test plate is visually
inspected. Then, at the Contractor’s option, the test plate is non-destructively (NDT) or mechanically tested.
NDT options include ultrasonic inspection (UT) and radiographic inspection (RT). Four bend tests are used
for mechanical testing. See D1.8, Annex D clause D4.
The Annex D test is similar in design, and identical in purpose, to a similar test prescribed in FEMA 353.
Welders who have been qualified previously using “similar restricted access plate tests” before D1.8 was
issued are not required to take the Annex D test, providing all the time continuity requirements are still met.
See D1.8, Annex D clause D1.
The qualification of a welder who has taken the Annex D Supplemental Welder Qualification test is valid for
36 months, providing the D1.1 continuity requirements are also met (i.e., the process is used at least every
six months). See D1.8, clause 5.2.
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D1.8 Seismic Supplement Welding Manual
Welding Procedure Specifications (WPSs)
A welding procedure specification is “a document providing the required welding variables for a specific
application to assure repeatability by properly trained welders and welding operators” according to AWS A3.0
Standard Terms and Definitions. AWS D1.1 requires WPSs to be documented (see D1.1 subclause 3.1, 4.6).
Under D1.1, WPSs may be either prequalified or qualified by test, and both types of WPSs may be used under
D1.8 as well.
In addition to meeting the requirements of D1.1, D1.8 mandates additional WPS requirements. Under D1.8,
WPSs must list the filler metal manufacturer as well as the filler metal trade name (such as Lincoln Electric’s
Innershield® NR®-233) as opposed to showing only the AWS classification (in this case, E71T-8). D1.8
mandates a variety of other filler metal requirements that are addressed in the next section of this manual.
See D1.8, clause 6.1(1).
WPSs must also list one or more combinations of welding variables that produce heat inputs within the
limits of the tests performed on the specific filler metal (this will be discussed in greater detail under
“Filler Metals”). Heat input is determined from the following equation:
Heat Input (H) = (60 x E x I)
1000 S
Where: H = Heat input in KJ/in (KJ/mm)
E = Arc voltage in volts
I = Current in amps
S = Travel speed in inches per minute (mm per minute)
The values for E, I and S as shown on the WPS must result in a heat input within the high and low heat input
limits for the specific electrode being used. See D1.8, clause 6.1(2).
The welding process shown on the WPS may be SMAW, GMAW (except for short circuit transfer), FCAW
(either self-shielded or gas-shielded) or SAW. Other processes are permitted under specific conditions.
See D1.8, clause 6.2.1.
The maximum interpass temperature to be shown on the WPS shall not exceed 300°C (550°F), unless an
alternative temperature (either higher or lower) has been established by test. See D1.8, clause 6.5.
Filler Metals – General
Filler metals acceptable for use on D1.8 projects are subject to a variety of requirements beyond those
imposed by D1.1. Some requirements apply to all welds governed by D1.8 while other provisions are
mandated only for the Demand Critical (DC) welds. If the weld is not on or part of the seismic force
resisting system, only D1.1 requirements apply. See D1.8, clause 6.3.
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From a practical perspective, it is expected that most contractors doing D1.8 work will use the same filler
metals for both Demand Critical welds and other welds that are part of the seismic force resisting system.
The effort required to segregate the different filler metals for different joints, and the potential consequences
of inadvertently using the wrong filler metal to make a Demand Critical weld, suggest that it is prudent to use
the same materials (i.e., those qualified for Demand Critical welds) throughout a project.
Filler Metals – All D1.8 Welds
Certificates of conformance for Lincoln Electric’s D1.8 products can be obtained at
properties and diffusible hydrogen levels for each product are contained in these certificates.
For all work done under D1.8, filler metals are required to meet a minimum Charpy V-Notch requirement
of 20 ft•lbf at 0°F, as measured in a standard AWS A5 filler metal classification test. Higher values for the
CVN energy (i.e., >20 ft•lbf) are acceptable, as are test results involving lower testing temperatures
(i.e., lower than 0°F). See D1.8, clause 6.3.1 and Table 6.1.
Most filler metals are required to be capable of depositing weld metal with a maximum diffusible hydrogen
content of 16 mL per 100 grams of deposited weld metal, meeting the requirement for H16. Lower diffusible
hydrogen levels are acceptable (for example, H8, H4, or H2). Exemptions from the requirement include SMAW
electrodes with low hydrogen coatings which may be accepted based on meeting AWS A5.1 or A5.5 electrode
specification for coating moisture content. Solid electrodes for GMAW and EGW are exempted from any
hydrogen measurement. See D1.8, clause 6.3.2.
When FCAW-S filler metals are combined with filler metals deposited by other processes, the combination of
the two must be checked to ensure that the minimum required Charpy V-Notch toughness can be obtained.
Annex B of D1.8 prescribes the required tests. Such testing is not required when FCAW-S is intermixed with
other FCAW-S. Alternatives to Annex B testing are also permitted by D1.8. See D1.8, clause 6.3.4 and
Annex B. Annex B of this manual contains intermix data on Lincoln Electric products.
Filler Metals – Demand Critical Welds
In addition to meeting the requirements above, filler metals used for making Demand Critical welds are required
to meet even more stringent requirements. Included are tests to evaluate the weld metal mechanical properties at
high and low heat input levels, as well as a variety of means by which lot-to-lot consistency of filler metals is ensured.
The actual mechanical properties (tensile, elongation and CVN toughness) of deposited weld metal are
dependent on a variety of factors, including the cooling rate experienced during the welding cycle. As cooling
rates are increased, the yield and tensile strength of the weld deposit typically increases, but the elongation
usually decreases. Conversely, slower cooling rates result in lower strength deposits with greater elongation.
Charpy V-notch toughness values are typically optimal at an intermediate cooling rate, and significant
changes in cooling rate (both increases and decreases) will often result in lower CVN values.
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D1.8 Seismic Supplement Welding Manual
Cooling rates are a function of several variables, including heat input. High heat input levels result in slower
cooling rates, whereas low heat input levels increase cooling rates.
D1.8 requires that the filler metals to be used in production first be evaluated in tests run at high and low
levels of heat input, that is, under slow and fast cooling rates. Production welding WPSs are then permitted to
use a wide range of variables, providing the calculated heat input levels are within the range of tested values.
See D1.8, clause 6.3.5 and Annex A.
Testing at high and low heat inputs may be casually called “hi/lo” testing, or “envelope” testing.
The Seismic Welding Supplement provides two means by which the high and low heat input tests can be
conducted. The first approach is detailed in Annex A of D1.8. Suggested heat input levels are provided, but
alternative values may be used as well. The second approach applies to FCAW electrodes, and uses the
new supplemental designator “-D” as defined in AWS A5.20:2005. Filler metals with this supplemental
designator are required to be tested at a prescribed high and low heat input level, as well as tested
according to the standard A5 classification test.
Filler metals for Demand Critical welds must meet the requirement of 20 ft•lbf at 0°F when tested in
accordance with the applicable AWS A5 filler metal specification, as previously discussed. Filler metals for
Demand Critical welds are additionally required to be tested at high and low heat input levels in accordance
with D1.8 Annex A, and the welds are required to deliver a minimum CVN toughness value of 40 ft•lbf at 70°F,
assuming the structure is subject to service temperatures of at least 50°F. If not, other requirements may apply.
The strength and ductility requirements for the electrode classification per the standard A5 classification test
must also be achieved on these high and low heat input tests. See D1.8, Table 6.2 and clause 6.3.6.
This testing can be performed by the filler metal manufacturer, the Contractor, or a third party acceptable to the
Engineer. See D1.8, clause 6.3.7. Results on Lincoln Electric products are included in Appendix A of this manual.
E7018, E7018-X, E7018-C3L, and E8018-C3 are exempted from the hi/lo heat input testing, as are solid
GMAW electrodes. See D1.8, clause 6.3.5.1 and 6.3.5.2.
Filler metals to be used in making Demand Critical welds must also comply with one or more of the methods
offered by D1.8 to ensure lot-to-lot consistency. Three methods are provided. First, each lot of material can
be tested. Secondly, manufacturers who are audited and approved by various third party agencies can supply
untested product, providing at least three lots of material for each filler metal trade name and diameter
have been tested, and such a test is repeated within every three years. Finally, SMAW electrodes of the
classification E7018, E7018-X, E7018-C3L and E8018-C3, as well as solid GMAW electrodes, are exempt
from lot testing, providing the certificate of conformance shows a minimum of 20 ft•lbf at 0°F.
See D1.8, clause 6.3.8.
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For FCAW-G and FCAW-S electrodes used to make Demand Critical welds, exposure of the filler metal after
it has been removed from protective packaging is required to be controlled. In the absence of test data
indicating otherwise, exposure is limited to 72 hours. Tests can be performed in accordance with Annex E
of D1.8, permitting this exposure time to be extended. Overexposed electrodes may be dried in accordance
with the electrode manufacturer’s recommendations. See D1.8, clause 6.4. Extended exposure information
for Lincoln Electric products is shown on the documents contained in Appendix A of this manual.
Techniques
All tack welds made under D1.8 are required to be made with the preheat as listed in the WPS. Tack welding
on members in the protected zone is restricted, generally being prohibited except when made in certain
locations, such as within the joint. Specific provisions apply to the removal of improperly placed tack welds.
See D1.8, clause 6.6 and 6.16.
Minimum lengths for weld tabs have been imposed by D1.8. Where practicable, weld tabs are to be at least
the thickness of the part, but no less than 1 inch. However, they need not exceed 2 inches in length. Tack
welds that attach weld tabs in the protected zone must be made within the joint. See D1.8, clause 6.10.
The sequence of depositing the half length weld beads associated with making Demand Critical welds in
beam bottom flange-to-column flange welds, where the welds are made through a weld access hole, is
detailed. Welds should not be started or stopped directly under the web, and each layer must be completed
on both sides of the beam web before a new layer can be started. Finally, weld starts and stops are to be
staggered, layer to layer, on opposite sides of the beam web. See D1.8, clause 6.14.
Contractors must establish and implement an identification system by which the welder welding on each
joint can be identified. See D1.8, clause 6.13.
The protected zone is the region within the structural member in which plastic hinging is expected to
occur during seismic events. In order to facilitate this inelastic deformation (instead of initiating fracture),
the protected zone must be kept free of notches and gouges, as well as miscellaneous attachments that may
impede the desired behavior of the member. With the exception of arc spot welds used to hold steel decking
in place, unauthorized welds and attachments should not be made in the protected zone. This would include,
but not be limited to, welded studs, erection aids, and attachments for non-structural members (such as
sprinkler system supports). See D1.8, clause 6.15.
If unauthorized welds are inadvertently added to the protected zone, D1.8 provides techniques to be used
when corrective measures are mandated. Magnetic particle inspection (MT) of these repaired regions is
typically required. See D1.8, clause 6.15.
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D1.8 Seismic Supplement Welding Manual
Inspectors.
The Inspector’s role with respect to D1.8 is no different than the role as defined by AWS D1.1, namely to
ensure that materials and workmanship meet the requirements of the code and contract documents. This is
done by performing inspection as necessary prior to assembly, during assembly, during welding, and after
welding. All welds are subject to visual inspection, and depending on contract documents, nondestructive
testing may also be required. For work done under the control of D1.8, details of required inspections will
typically be specified in the Quality Assurance Plan (QAP).
The Inspector has neither the responsibility nor the authority to determine when and where D1.8 is to be
applied. This task is assigned to the Engineer who is to identify such requirements in the contract documents.
Compliance with all applicable provisions of D1.1 and D1.8 is required when D1.8 is specified, and the
Inspector should perform all the necessary inspections to ensure such compliance. D1.8 has brought about
some new requirements, however, that justify specific attention on the part of the Inspector, as follows:
Regarding Welder Qualification
ꢀꢀEnsure that the welder has been qualified in accordance with the Annex D Supplemental Welder
Qualification for Restricted Access Welding when such qualification is required. See D1.8, clause 5.1.1.
ꢀꢀEnsure that the weld backing type (steel, ceramic, copper, or none) is consistent with the type
of backing for which the welder has been qualified. See D1.8, clause 5.1.3.
ꢀꢀEnsure that the production WPSs used by the welder are at a deposit rate at or below the value used
for qualification of the welder when applicable. See D1.8, clause 5.1.2.
Regarding Filler Metals
ꢀꢀEnsure that the filler metals used for Demand Critical welds have been tested in accordance with the
Annex A WPS Heat Input Envelope Testing, or carry the “-D” designator, or are exempt from such
testing. See D1.8, clause 6.3.5.
ꢀꢀEnsure that the WPSs show combinations of welding variables that are within the range of permissible
heat input values, when applicable. See D1.8, clause 6.1(2).
Regarding Production Welding
ꢀꢀEnsure that the values prescribed on the WPS are employed in production.
ꢀꢀEnsure that the required layering sequence for welding beam bottom flange to column flange
connections is followed. See D1.8, clause 6.14.
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19
Regarding Structural Details
ꢀꢀEnsure that weld access holes are properly prepared. See D1.8, clause 6.9.
ꢀꢀEnsure that weld tabs and backing have been removed, when required. See D1.8, clause 6.7, 6.10.
Regarding the Protected Zone
ꢀꢀEnsure that no unauthorized welds or attachments have been added. See D1.8, clause 6.15.
ꢀꢀEnsure that no unacceptable notches or gouges are in the protected zone. See D1.8, clause 6.15.
ꢀꢀEnsure that repairs in the protected zone are properly made and inspected, as necessary.
See D1.8, clause 6.15.
References
References
1. Federal Emergency Management Agency, July 2000, Recommended
Specifications and Quality Assurance Guidelines for Steel Moment -
Frame Construction for Seismic Applications (FEMA 353),
FEMA, Washington, D.C.
Consumable AWS Certificates:
Safety References
2. American Welding Society, 2005, Structural Welding Code-Seismic
Supplement (AWS D1.8/D1.8M:2009), AWS, Miami, FL.
3. American Institute of Steel Construction, 2005, Specifications for
Structural Steel Buildings (AISC 360-05), AISC, Chicago, IL.
4. American Institute of Steel Construction, 2005, Seismic Provisions
for Structural Steel Buildings (AISC 341-05), AISC, Chicago, IL.
5. American Institute of Steel Construction, 2005, Prequalified
Connections for Special and Intermediate Steel Moment Frames
for Seismic Applications (AISC 358-05), AISC, Chicago, IL.
6. American Welding Society, 2010, Structural Welding Code-Steel
(AWS D1.1/D1.1M:2010), AWS, Miami, FL.
7. American Welding Society, 1999, Structural Welding Code-Stainless
Steel (AWS D1.6/D1.6M:1999), AWS, Miami, FL.
8. American Welding Society, 2005, Specification for Carbon Steel
Electrodes for Flux Cored Arc Welding (AWS A5.20/A5.20M:2005),
AWS, Miami, FL.
Material Safety Data Sheets (MSDS):
ANSI Z49.1:
E205 Safety Booklet, and other Arc Welding Safety Materials:
Safe Practices Article:
Note
A FEMA 353 Welding Manual was prepared and is still available for download
Also, FEMA 353 is available for download at
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D1.8 Seismic Supplement Welding Manual
Lincoln Electric Products
The Lincoln Electric Company offers a broad range of filler metals capable of meeting the requirements
of AWS D1.8 Seismic Welding Supplement. Whether your choice of welding process is SMAW, FCAW-S,
FCAW-G, GMAW, GMAW-C or SAW, Lincoln manufactures and offers consumables that will satisfy D1.8
requirements for nearly every application.
To save our customers time and money, Lincoln has already performed various tests required by AWS
D1.8 on select on select Innershield®, Outershield®, UltraCore®, Metalshield®, and Lincolnweld® products.
Additionally, select Excalibur® and SuperArc® products that meet all D1.8 requirements for Demand Critical
welds are available.
For the most up-to-date information,
As a benefit to customers, Lincoln Electric has
please refer to electrode information
added the following symbol to labels, literature
and packaging of all D1.8 qualified electrodes:
Structural Welding Code
Seismic Supplement
Many factors must be considered when selecting the best electrode for a specific project. One of the most
important factors is for the filler metal to meet the applicable specification requirements. Additionally, the
filler metal and the procedures used with that filler metal must produce a weld which is suitable for the
application. While AWS D1.8 does not require welding procedure qualification, it is nevertheless essential
that the procedure used follow good welding practice in order to ensure sound welds with the requisite
mechanical properties. Weld metal soundness and mechanical properties are dependent on many variables,
including the base metal, preheat and interpass temperature, heat input, bead sizes and other factors. If
there are uncertainties as to whether or not the combination of welding parameters to be employed on the
project are appropriate, the customer is encouraged to perform suitable tests to ensure that quality weld
will be achieved.
The three possible types of welds in D1.8 are:
ꢀꢀWelds that are not part of the SFRS
ꢀꢀWelds that are part of the SFRS but not Demand Critical
ꢀꢀWelds that are part of the SFRS and are Demand Critical
For welds in the first category, no special provisions beyond normal D1.1 requirements apply.
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D1.8 Seismic Supplement Welding Manual
21
The requirements for Demand Critical welds are the most rigorous. Filler metals that meet D1.8 requirements
for Demand Critical welds will automatically meet all the requirements for welds that are on the SFRS but
not Demand Critical. For consistency and simplicity, Lincoln Electric suggests that filler metals that meet the
requirements for Demand Critical be used on all welds made on the SFRS. This simple practice will eliminate
the possibility of using an unacceptable product on a Demand Critical weld.
Lincoln Electric filler metals for D1.8 Demand Critical welds all meet the following requirements:
ꢀꢀAWS A5 yield, tensile, elongation and CVN requirements for classification
ꢀꢀAISC Seismic Provision requirements of 20 ft•lbf @ -20°F.
ꢀꢀD1.8 Annex A high/low heat input testing requirements (40 ft•lbf @ 70°F), or A5.20 optional
“-D” designator requirements, or are exempted from high/low heat input testing.
ꢀꢀD1.8 diffusible hydrogen limits (applicable to FCAW-G, FCAW-S, GMAW, GMAW-C and SAW)
ꢀꢀFor FCAW-G and FCAW-S, D1.8 extended exposure time of at least one week when tested in
accordance with Annex E. Some products have been tested to time periods exceeding one week.
See applicable exposure test results.
ꢀꢀFor FCAW-G and FCAW-S, ProTech® foil bag protective packaging (D1.8 clause 6.4.1).
ꢀꢀFor suggested FCAW-S, common intermix combinations (D1.8 Annex B).
Lincoln Electric additionally produces a variety of filler metals meeting D1.8 requirements where an 80 ksi
tensile strength deposit is required. Contact your Lincoln Electric technical representative for additional
information on these products.
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D1.8 Seismic Supplement Welding Manual
Exposure Testing:
Lincoln Electric Approved Filler Metal per AWS D1.8/D1.8M:2009, Subclause 6.1.3
TABLE 3: HEAT INPUT LIMITS FOR DEMAND CRITICAL WELDS
.
Diameters.. High.Heat.Input
Available inches.avg.
Low.Heat.Input
inches.avg.
Exposure.Time.@.
80°F./.80%.Relative.Humidity
Product.Name
Filler.Metal.with.70.ksi.Minimum.Tensile.Strength.Requirement.per.AWS
Excalibur® 7018 MR
AWS E7018 H4R
3/32
1/8
5/32
3/16
7/32
1/4
No heat input testing required
Excalibur® 7018-1 MR
AWS E7018-1 H4R
Innershield® NR-232
AWS E71T-8
0.068
0.072
5/64
1/16
0.072
5/64
74
73
76
74
67
86
64
29
31
32
33
31
32
37
1 Week
Innershield® NR-233
AWS E71T-8
8 Weeks
1 Week
1 Week
Innershield® NR-305
3/32
AWS E70T-6
Innershield® NR-311 Ni
AWS E70T7-K2
Outershield® 71 Elite
3/32
1/16
80
65
45
30
—
8 Weeks
AWS E71T-1C-H8, E71T-9C-H8
UltraCore® 70C
AWS E70T-1C-H8, E70T-9C-H8
1/16
3/32
5/64
0.045
0.052
1/16
0.045
0.052
1/16
79
80
80
80
81
82
82
81
81
62
61
32
38
32
31
28
28
28
31
28
34
34
8 Weeks
UltraCore® 71C
AWS E71T-1C-H8, E71T-9C-H8
8 Weeks
—
8 Weeks
UltraCore® 71A85
AWS E71T-1M-H8, E71T-9M-H8
8 Weeks
72 Hours
Metalshield® MC-706
AWS E70C-6M-H4
0.045
1/16
SuperArc® L-50
AWS ER70S-3
0.030
0.035
0.045
0.052
1/16
No heat input testing required No heat input testing required
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D1.8 Seismic Supplement Welding Manual
23
TABLE 3: HEAT INPUT LIMITS FOR DEMAND CRITICAL WELDS (cont’d)
.
Diameters.. High.Heat.Input Low.Heat.Input
Available.(in) mm(in.).avg. mm.(in.).avg.
Exposure.Time.@.
80°F./.80%.Relative.Humidity
Product.Name
Filler.Metal.with.70.ksi.Minimum.Tensile.Strength.Requirement.per.AWS
SuperArc® L-56
AWS ER70S-6
0.025
0.030
0.035
0.040
0.045
0.052
1/16
No heat input testing required
SuperArc® L-59
AWS ER70S-6
0.035
0.040
0.045
0.052
1/16
Lincolnweld® 960/L-61
AWS F7A2-EM12K
1/8
65
32
—
Filler.Metal.with.80.ksi.Minimum.Tensile.Strength.Requirement.per.AWS
Excalibur® 8018-C3
AWS 8018-C3 MR
3/32
1/8
5/32
3/16
7/32
1/4
No heat input testing required
UltraCore® 81Ni1A75-H
AWS E81T1-Ni1M-H4
0.045
0.052
1/16
0.045
0.052
1/16
80
78
74
74
80
78
30
30
30
31
30
29
16 Weeks
16 Weeks
UltraCore® 81Ni1C-H
AWS E81T1-Ni1C-H4
SuperArc® LA-75
AWS ER80S-Ni1
0.035
0.045
SuperArc® LA-90
AWS ER80S-D2, ER90S-D2
0.035
0.045
0.052
1/16
No heat input testing required
Pipeliner® 70S-G
0.045
AWS ER70S-G
Pipeliner® 80S-G
0.045
AWS ER80S-G
Pipeliner® 80Ni1
AWS ER80S-G
0.040
0.047
Lincolnweld® 960/LA-85
1/8
65
32
—
AWS F8A2-ENi5-G
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D1.8 Seismic Supplement Welding Manual
Appendices
The following appendices reference the required documentation required to support the use
of suggested Lincoln Electric products for D1.8 Demand Critical applications. Check with your
Lincoln Electric sales representative, authorized distributor or the Lincoln Electric website at
Appendix A:
Appendix B:
Appendix C:
D1.8 Certifications
Intermix Testing Results
Lot Control Alternative Documentation
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D1.8 Seismic Supplement Welding Manual
25
Appendix A:
D1.8 Certifications
Additional.Certificates.Available.Online.
AWS D1.8 mandates a series of tests that must be performed before
various filler metals can be used to make Demand Critical welds. While
AWS D1.8 permits these tests to be performed by fabricators and erectors,
it also allows for manufacturers like Lincoln Electric to conduct such tests.
When three different lot test certificates comply, these approved filler
metals fulfill the AWS D1.8 lot waiver requirements. Three certificates
are available for the following Lincoln Electric electrodes and diameters
online. A sample certificate for each qualified product is included on the
following pages.
SMAW.and.GMAW.Certificates.of.Conformance
SMAW electrodes of the classification E7018, E7018-X, E7018-C3L and
E8018-C3, as well as solid GMAW electrodes, are exempt from lot and
hi/low heat input testing, providing the Certificate of Conformance shows
a minimum of 20 ft•lbf at 0°F. See D1.8, clause 6.3.8.
To view the Certificates of Conformance for AWS D1.8/D1.8M:2009
approved Lincoln SMAW and GMAW products visit the AWS and Lot
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D1.8 Seismic Supplement Welding Manual
Lincoln Electric D1.8 Approved Products - Certificates Available
TABLE 4: D.18 APPROVED PRODUCTS WITH CERTIFICATES AVAILABLE
Diameters..
Available.(in.)
Product.Name
AWS.Classification
Self-Shielded,.Flux-Cored.Wire
Innershield® NR-232
AWS E71T-8-H16
AWS E71T-8-H16
AWS E70T-6-H16
AWS E70T7-K2-H16
0.068, 0.072, 5/64
0.072, 1/16, 5/64
3/32
Innershield® NR-233
Innershield® NR-305
Innershield® NR-311 Ni
3/32
Gas-Shielded,.Flux-Cored.Wire
UltraCore® 71A85
AWS E71T-1M-H8, E71T-9M-H8
AWS E71T-1C-H8, E71T-9C-H8
AWS E71T-1C-H8, E71T-9C-H8
AWS E770T-1C-H8, E70T-9C-H8
AWS E81T1-Ni1M-JH4
0.045 , 0.052, 1/16
0.045, 0.052, 1/16
1/16
UltraCore® 71C
Outershield® 71 Elite
UltraCore® 70C
1/16, 3/32, 5/64
0.045, 0.052, 1/16
0.045, 0.052, 1/16
UltraCore® 81Ni1A75-H
UltraCore® 81Ni1C-H
AWS E81T1-Ni1C-H4
Metal-Cored.Wire
Metalshield® MC-706
AWS E70C-6M-H4
0.045, 0.052, 1/16
Submerged.Arc.Flux.and.Electrode
Lincolnweld® 960/Lincolnweld® L-56
—
—
—
3/32
1/8
Lincolnweld® 960/Lincolnweld® L-61
Lincolnweld® 960/Lincolnweld® LA-85
1/8
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D1.8 Seismic Supplement Welding Manual
Appendix B:
Intermix Testing
When FCAW-S is intermixed with welds made
by processes other than FCAW-S, the intermixed
zone must be tested in accordance with Annex B
of AWS D1.8. This testing can be performed by the
filler metal manufacturer, the customer, or by a
third party. The results for intermixed weld metal
tested by Lincoln Electric are listed as follows:
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D1.8 Seismic Supplement Welding Manual
Appendix C:
Alternative To Production
Lot Testing
As an alternative to certification by test of every
production lot made, D1.8 allows an alternative
means for a manufacturer to demonstrate that
products are manufactured consistently and capable
of achieving the required weld metal mechanical
properties. This includes certification of three lots
for each product, as described in Appendix A, in
addition to the certification of a manufacturer’s
production processes to recognized quality
management standards.
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NOTES
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D1.8 Seismic Supplement Welding Manual
District Sales Offices
U.S.A.
ALABAMA.
FLORIDA.(cont)
LOUISIANA.
NEW.MEXICO.
BIRMINGHAM 35124-1133
(205) 988-8232
DOTHAN 36303-5533
(334) 782-1074
JACKSON 39212-9635
(601) 506-4598
MOBILE 36527-5323
(251) 377-8574
ORLANDO 32714-1954
(407) 788-8557
TAMPA 33606-2661
(888) 935-3860
BATON ROUGE 70808-3150
(225) 922-5151
HOUMA 70364-2516
(225) 773-5614
LAFAYETTE 70507-3126
(337) 886-1090
ALBUQUERQUE 87120-5360
(505) 890-6347
NEW.YORK.
NEW YORK 07740-5428
(732) 841-6951
SYRACUSE 13090-3600
(315) 432-0281
GEORGIA.
ATLANTA 30122-3811
(888) 935-3860
SAVANNAH 31324-6525
(912) 656-1978
NEW ORLEANS 70124-3906
(504) 432-4717
SHREVEPORT 75692-9313
(318) 518-4099
NORTH.CAROLINA.
CHARLOTTE 28273-3552
(704) 588-3251
RALEIGH 27540-9649
(704) 301-0565
ALASKA.
Contact VANCOUVER, WA
(360) 693-4712
HAWAII.
Contact LOS ANGELES, CA
(562) 906-7700
MAINE.
Contact BOSTON MA
(508) 788-9353
ARIZONA.
PHOENIX 85260-1745
(480) 348-2004
IDAHO.
Contact SALT LAKE CITY, UT
(801) 233-9353
NORTH.DAKOTA.
Contact MINNEAPOLIS, MN
(763) 391-8384
MARYLAND.
BALTIMORE 21044-5675
(410) 443-1091
ARKANSAS.
LITTLE ROCK 72032-4371
(501) 764-0480
ILLINOIS.
CHICAGO 60440-3538
(630) 783-3600
BLOOMINGTON 61704-1510
(309) 838-3717
OHIO.
BEDFORD 44146-3455
(216) 407-9538
AKRON
(216) 383-2662
CINCINNATI 45242-3706
(513) 554-4440
CLEVELAND 44117-2525
(216) 383-2662
COLUMBUS 43221-4073
(614) 488-7913
TOLEDO 43551-1914
(419) 874-6331
MASSACHUSETTS.
BOSTON 01581-2658
(508) 788-9353
CALIFORNIA.
FRESNO 93722-5268
(559) 647-7580
LOS ANGELES 90670-4062
(562) 906-7700
N. CALIFORNIA 95762-5706
(916) 939-8788
MICHIGAN.
DETROIT 48393-4700
(248) 348-2575
GRAND RAPIDS 49512-3924
(616) 942-8780
INDIANA.
FT. WAYNE 46825-1551
(260) 484-4422
INDIANAPOLIS 46250-5536
(317) 845-8445
EVANSVILLE 47711-2340
(216) 287-0227
WALNUT CREEK 94596-4625
(916) 452-1425
MINNESOTA.
MINNEAPOLIS 55369-5455
(763) 391-8384
COLORADO.
DENVER 80112-5115
(303) 792-2418
CEDAREDGE 81413-8266
(970) 856-4581
SOUTH BEND 46530-7384
(574) 271-3473
OKLAHOMA.
OKLAHOMA CITY 73139-2432
(405) 616-1751
TULSA 74146-1622
(918) 622-9353
MISSISSIPPI.
JACKSON 39212-9635
(601) 372-7679
IOWA.
CEDAR RAPIDS 52402-3160
(319) 362-6804
CONNECTICUT.
NORTH HAVEN 06238-1090
(860) 742-8887
MISSOURI.
ST. LOUIS 63038-0069
(563) 386-6522
SPRINGFIELD 65804-2309
(417) 773-2657
DAVENPORT 52806-1344
(563) 386-6522
DES MOINES 50021-6835
(563) 386-6522
OREGON.
Contact VANCOUVER, WA
(360) 693-4712
DELAWARE.
Contact PHILADELPHIA, PA
(610) 543-9462
KANSAS.
KANSAS CITY 66214-1629
(913) 894-0888
WICHITA 67235-9261
(316) 789-5954
OMAHA 68046-7031
(402) 203-6401
PENNSYLVANIA.
PHILADELPHIA 19008-4310
(610) 543-9462
PITTSBURGH 15001-4800
(724) 857-2750
ERIE 16506-1566
(216) 469-1059
HARRISBURG 17104-1422
(717) 213-9163
MONTANA.
Contact VANCOUVER, WA
(360) 693-4712
FLORIDA.
JACKSONVILLE 32216-4634
(904) 642-3177
MEDLEY 33178-1155
(305) 888-3203
MIAMI 33178-1175
(305) 888-3203
NEBRASKA.
OMAHA 68046-7031
(402) 203-6401
KENTUCKY.
LOUISVILLE 47112-7025
(502) 727-7335
NEW.HAMPSHIRE.
Contact BOSTON MA
(508) 788-9353
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D1.8 Seismic Supplement Welding Manual
47
District Sales Offices
U.S.A.
CANADA
RHODE.ISLAND.
Contact BOSTON MA
(508) 788-9353
TEXAS.(cont)
HOUSTON 77060-3143
(281) 847-9444
MONTGOMERY 77316-2429
(713) 724-2350
WASHINGTON.DC.
Contact PHILADELPHIA
(610) 543-9462
ALBERTA.
CALGARY
(403) 253-9600/
(877) 600-WELD
SOUTH.CAROLINA.
FLORENCE 29063-8468
(803) 331-4340
WEST.VIRGINIA.
BARBOURSVILLE 25504-9665 BRITISH.COLUMBIA.
UTAH.
MIDVALE 84047-3759
(801) 233-9353
(304) 736-5600
VANCOUVER
(604) 945-7524
SOUTH.DAKOTA.
SIOUX FALLS 57110-4004
(262) 227-2807
WISCONSIN.
GREEN BAY 54302-1829
(920) 435-1012
MILWAUKEE 53051-1103
(262) 650-9364
MARITIMES.
NEWBRUNSWICK
(506) 849-4474
VERMONT.
Contact BOSTON MA
(508) 788-9353
TENNESSEE.
MEMPHIS 38119-5811
(901) 683-6260
NASHVILLE 37228-1708
(615) 291-9927
MANITOBA./..
VIRGINIA
VIRGINIA BEACH 23455-7216
(757) 870-5508
SASKATCHEWAN/.
NORTHWEST.ONTARIO.
WINNIPEG
TRI-CITIES 37659-5693
(423) 612-1204
ROANKE 24541-6785
(434) 441-0227
(204) 488-6398
ONTARIO
TEXAS.
ALBUQUERQUE 87120-5360
(505) 400-5200
WASHINGTON.
VANCOUVER 98661-8023
(360) 693-4712
MISSISSAUGA
(905) 565-5600
TORONTO
CORPUS CHRISTI 78412
(361) 244-3007
DALLAS 76051-7602
(817) 329-9353
LUBBOCK 76902-1151
(325) 260-3667
SPOKANE 99005-9637
(509) 953-7399
AUBURN 98092-8091
(253) 722-6316
(416) 421-2600
QUEBEC.
MONTREAL
(450) 654-3121
Automation Division
22221 Saint Clair Avenue, Cleveland, Ohio 44117-2522 U.S.A
International Headquarters
LATIN.AMERICA
EUROPE
ASIA.PACIFIC
Miami, Florida U.S.A.
Phone: (305) 888-3203
Barcelona, Spain
Phone: 34 91 816 4266
Shanghai, China
Phone: 86 21 6602 6620
Sydney, Australia
Phone: 61 2 9772 7222
SOUTH.AMERICA
Sao Paulo, Brazil
RUSSIA,.AFRICA.
&.MIDDLE.EAST
Phone: 011 55 11 2431 4703 Cleveland, OH U.S.A.
Phone: (216) 481-8100
The Harris Products Group
Consumables: ph: 1-800-733-8912, fax: (513) 754-8778 • Equipment: ph: 1-800-241-0804, fax: (770) 535-0544
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THE.LINCOLN.ELECTRIC.COMPANY
22801 St. Clair Avenue • Cleveland, OH • 44117-1199 • U.S.A.
C1.65 10/2010 © Lincoln Global, Inc. All Rights Reserved. Printed in the U.S.A.
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