Volume 06 - Welding, Brazing and Soldering Part 9 pps

METALS HANDBOOK DESK EDITION,PROPERTIES AND SELECTION: NONFERROUS ALLOYS AND SPECIAL-PURPOSE MATERIALS, ASM HANDBOOK, THE PHYSICAL METALLURGY OF TITANIUM ALLOYS,... TABLE 1 PROPERTIES AN

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•

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σ

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WELD J.

MET PROG.,

Properties and Selection: Nonferrous Alloys and Special-Purpose Materials ASM Handbook.

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α β

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ALLOYING ELEMENT CONTENT, WT% EFFECT ON STRUCTURE

ααβββ

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METALS HANDBOOK DESK EDITION,

PROPERTIES AND SELECTION: NONFERROUS ALLOYS AND SPECIAL-PURPOSE MATERIALS, ASM HANDBOOK,

THE PHYSICAL METALLURGY OF TITANIUM ALLOYS,

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•

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TABLE 1 PROPERTIES AND COMPOSITIONS OF TITANIUM AND TITANIUM ALLOYS

TENSILE STRENGTH (MIN)

0.2%

YIELD STRENGTH (MIN)

IMPURITY LIMITS (MAX), WT%

NOMINAL COMPOSITION, WT% DESIGNATION

UNALLOYED GRADES

ALPHA AND NEAR-ALPHA ALLOYS

ALPHA-BETA ALLOYS

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METASTABLE BETA ALLOYS

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TABLE 2 SUMMARY OF HEAT TREATMENTS FOR ALPHA-BETA TITANIUM ALLOYS

β

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J MET.,

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CORROSION, ASM HANDBOOK,

TITANIUM '80 SCIENCE AND TECHNOLOGY,

WELDABILITY OF MATERIALS,

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•

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•

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et al.

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c a

C A

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•

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et al.

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TABLE 3 RECOMMENDED STRESS-RELIEF TREATMENTS FOR TITANIUM AND TITANIUM ALLOYS

TEMPERATURE ALLOY

TIME, H

α OR NEAR- α TITANIUM ALLOYS

α -β TITANIUM ALLOYS

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β OR NEAR- β TITANIUM ALLOYS

TABLE 4 FUSION ZONE TENSILE PROPERTIES OF GAS-TUNGSTEN ARC-WELDED TITANIUM ALLOYS

YIELD STRENGTH

ULTIMATE TENSILE STRENGTH

ELONGATION,

%

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J MET.,

WELD J RES SUPPL.,

PROC OF 1992 INT CONF ON TITANIUM ALLOYS

WELD J.,

J MAT SCI LET.,

PROC OF TMS CONF ON BETA TITANIUM ALLOYS

J MAT SCI LET, METALLOGRAPHY,

WELD PROD.,

TRANS AIME,

HYDROGEN IN METALS,

TITANIUM SCIENCE AND TECHNOLOGY,

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S-N

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et al.

S-N

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S N

et al.

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J MET.,

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TRENDS IN WELDING RESEARCH,

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TABLE 5 WELDING PARAMETERS FOR GAS-TUNGSTEN ARC WELDING OF TI-6AL-4V

MATERIAL

THICKNESS (A)

TUNGSTEN ELECTRODE DIAMETER

FILLER ROD DIAMETER

NOZZLE SIZE ID

SHIELDING GAS FLOW

TRAVEL SPEED (C)

WELDING CURRENT (B)

NUMBER

OF PASSES

mm/min in./min SQUARE-GROOVE AND FILLET WELDS

V-GROOVE AND FILLET WELDS

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TABLE 6 TYPICAL PARAMETERS FOR GAS-METAL ARC WELDING OF TITANIUM ALLOY PLATE

ELECTRODE THICKNESS

DIAMETER FEED

WELDING CURRENT TRAVEL SPEED

mm in.

WELDING POSITION (A)

SHIELDING GAS TYPE OF

TRANSFER (B) mm in. m/min in./min

ARC VOLTAGE,

V A (C) BACKGROUND MEAN

PULSE

mm/min in./min.

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TABLE 7 TYPICAL OPERATING CONDITIONS FOR PLASMA ARC WELDING OF TI-6AL-4V

GAS

SHIELDING GAS

mm in mm/min in./min

CURRENT (DCEN), A

ARC VOLTAGE, V

GAS

m 3 /h ft 3 /h m 3 /h ft 3 /h

JOINT TYPE

TABLE 8 TYPICAL OPERATING PARAMETERS FOR ELECTRON-BEAM WELDING OF TI-6AL-4V

ACCELERATING VOLTAGE, KV

BEAM CURRENT,

TABLE 9 PROPERTIES OF ELECTRON-BEAM-WELDED TI-6AL-4V

0.2% OFFSET YIELD STRENGTH

FRACTURE

TOUGHNESS (KQ ) CONDITION (A)

ELONGATION,

%

REDUCTION

IN AREA, %

MPA m KSI in

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TABLE 10 DIMENSIONS AND PROCESS VARIABLES FOR SUCCESSFUL LASER WELDS IN TI-6AL-4V

WIDTH OF HAZ

AT SURFACE

MELT WIDTH

AT BOTTOM

WIDTH OF HAZ

AT BOTTOM

NUGGET AREA

HAZ AREA POWER,

JOINING, AREA

MM 2 /KJ

TABLE 11 TYPICAL MECHANICAL PROPERTIES OF LASER-BEAM-WELDED TITANIUM ALLOYS

STRESS MATERIAL

ELONGATION,

%

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TABLE 12 TYPICAL OPERATING CONDITIONS FOR RESISTANCE SPOT WELDING OF TI-6AL-4V

MATERIAL

THICKNESS

ELECTRODE FORCE (A)

NUGGET DIAMETER

WELDING CURRENT,

WELD TIME, CYCLES (60 HZ)

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WELDING HANDBOOK,

METALL TRANS A,

METALS HANDBOOK DESK EDITION,

PROPERTIES AND SELECTION: NONFERROUS ALLOYS AND SPECIAL-PURPOSE MATERIALS, ASM HANDBOOK,

THE PHYSICAL METALLURGY OF TITANIUM ALLOYS,

WELDING HANDBOOK,

J MET.,

PROC OF 1992 INT CONF ON TITANIUM ALLOYS

WELD J.,

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J MAT SCI LET.,

PROC OF TMS CONF ON BETA TITANIUM ALLOYS

J MAT SCI LET, METALLOGRAPHY,

WELD PROD.,

TRANS AIME,

HYDROGEN IN METALS,

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ET AL.,

FATIGUE '84,

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TABLE 2 MAXIMUM USEFUL TEMPERATURES AND CHEMICAL COMPOSITIONS OF SELECTED TEMPERATURE TITANIUM ALLOYS

HIGH-MAXIMUM USEFUL TEMPERATURE

YIELD STRENGTH

FRACTURE TOUGHNESS COMMON NAME

MPa Ksi MPa Ksi

REDUCTION

IN AREA, %

ELONGATION,

%

MPa m Ksi in

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ISIJ INT.,

PROC 5TH INT CONFERENCE ON TITANIUM

PROC CONF AIME,

BINARY ALLOY PHASE DIAGRAMS,

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ISIJ INT.,

PROC 5TH INT CONFERENCE ON TITANIUM

PROC CONF AIME,

BINARY ALLOY PHASE DIAGRAMS,

WELD J.,

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xxx

TABLE 1 ALLOY DESIGNATIONS OF WROUGHT ALUMINUM ALLOYS

ALLOY SYSTEM ALUMINUM SERIES

WORK-HARDENABLE ALLOYS

XXX XXX XXX XXX XXX XXX

PRECIPITATION-HARDENABLE ALLOYS

XXX XXX XXX XXX XXX XXX XXX XXX

TABLE 2 NOMINAL COMPOSITION OF SELECTED COMMON HEAT-TREATABLE ALUMINUM

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xxx,

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xxx

xxx xxx

xxx

xxx xxx

xxx

ALUMINUM: PROPERTIES AND PHYSICAL METALLURGY,

ALUMINUM STANDARDS AND DATA,

ASM HANDBOOK,

J INST MET.,

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xxx xxx

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xxx xxx

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xxx

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xxx

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WELD PROD.,

TRANS JPN WELD RES INST.,

ADVANCES IN WELDING SCIENCE AND TECHNOLOGY,

WELD RES COUNC BULL.,

WELD J.,

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xxx xxx xxx xxx

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TABLE 5 FILLER ALLOYS RECOMMENDED FOR WELDING SELECTED ALUMINUM-BASE ALLOYS TO MINIMIZE SENSITIVITY TO WELD CRACKING

511.0, 512.0, 513.0, 514.0

7005 (A) ,

7039, 710.0, 711.0, 712.0

3004 ALCL

AD 3004

2219, 2519

2014 , 2036

1100,

1060,

3004, ALCL

AD 3003

1060 1070 , 1080 , 1350

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HRE

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xxx xxx

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xxx xxx

xxx

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PROC CONF NONDESTRUCTIVE CHARACTERIZATION OF MATERIALS II,

MATER RES STAND.,

WELD J.,

CRYOG ENG NEWS,

WELD J.,

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WELD PROD.,

TRANS JPN WELD RES INST.,

ADVANCES IN WELDING SCIENCE AND TECHNOLOGY,

WELD J.,

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CRYOG ENG NEWS,

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ALLOY NUMBER ALLOY ADDITION

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99.00 99.45 99.75 99.88 99.00 99.30 99.35 99.45 99.50 BAL BAL BAL BAL BAL

BAL BAL BAL

BAL

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H14

ASM Handbook

ALUMINUM STANDARDS AND DATA

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xxx

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PLATE PROPERTIES WELD PROPERTIES

YIELD STRENGT H

FILLE

R ALLO Y

MPA KSI MP

A KSI

ELONGATIO

N

IN 50 MM (2 IN.), %

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ALUMINUM STANDARDS AND DATA

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α α

METALS HANDBOOK, PROPERTIES AND SELECTION: NON FERROUS ALLOYS AND SPECIAL-PURPOSE MATERIALS,

MATER SCI ENG.,

MECHANICAL BEHAVIOR OF RAPIDLY SOLIDIFIED MATERIALS,

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TABLE 1 CHEMICAL COMPOSITIONS OF DISPERSION-STRENGTHENED ALUMINUM-BASE ALLOYS PRODUCED BY RS-P/M

ALCOA ALCOA ALCOA ALCOA ALCOA ALLIEDSIGNAL INC

ALLIEDSIGNAL INC

PRATT & WHITNEY

μ α

α

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MATER SCI ENG.,

RAPID SOLIDIFICATION PROCESSING: PRINCIPLES AND TECHNOLOGIES II,

UNDERCOOLED ALLOY PHASES,

SCIENCE AND TECHNOLOGY OF UNDERCOOLED MELTS,

RAPIDLY SOLIDIFIED AMORPHOUS AND CRYSTALLINE ALLOYS,

RAPIDLY SOLIDIFIED ALUMINUM ALLOYS,

MATER CHARACT.,

J MATER SCI

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J MATER SCI.,

α

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•

μ μ

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SOURCE BOOK ON SELECTION AND FABRICATION OF ALUMINUM ALLOYS,

WELD J.,

SOLIDIFICATION PROCESSING,

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TABLE 2 WELDING PARAMETERS AND WELDMENT CHARACTERISTICS OF AL-8FE-2.3MO ALLOY WELDS

TRAVEL

SPEED

ENERGY

E TENSILE STRENGT H

THRESHOL

D BENDING STRAIN, %

ELONGATION , %

FAILURE LOCATION (A )

65

73

85

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α α

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α

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α

α α

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J MATER SCI LETT.,

WELD J.,

ADVANCES IN WELDING SCIENCE & TECHNOLOGY,

MATER SCI ENG.,

RECENT TRENDS IN WELDING SCIENCE & TECHNOLOGY,

METALLOGRAPHY,

MATER CHARACT.,

RAPID SOLIDIFICATION OF METALS AND ALLOYS,

ALUMINUM TRANSFORMATION TECHNOLOGY AND APPLICATIONS 1981,

MATER SCI ENG.,

ALUMINUM ALLOYS: STRUCTURE AND PROPERTIES,

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α

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MATER SCI ENG.,

MECHANICAL BEHAVIOR OF RAPIDLY SOLIDIFIED MATERIALS,

UNDERCOOLED ALLOY PHASES,

SCIENCE AND TECHNOLOGY OF UNDERCOOLED MELTS,

RAPIDLY SOLIDIFIED ALUMINUM ALLOYS,

MATER CHARACT.,

J MATER SCI.,

SOURCE BOOK ON SELECTION AND FABRICATION OF ALUMINUM ALLOYS,

WELD J.,

SOLIDIFICATION PROCESSING,

ADVANCES IN WELDING SCIENCE & TECHNOLOGY,

MATER SCI ENG.,

RECENT TRENDS IN WELDING SCIENCE & TECHNOLOGY,

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MATER CHARACT.,

RAPID SOLIDIFICATION OF METALS AND ALLOYS,

ALUMINUM TRANSFORMATION TECHNOLOGY AND APPLICATIONS 1981,

MATER SCI ENG.,

ALUMINUM ALLOYS: STRUCTURE AND PROPERTIES,

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J MATER SCI

S T

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T S

TABLE 1 NOMINAL COMPOSITIONS AND SELECTED PROPERTIES OF ALUMINUM-LITHIUM ALLOYS

COMPOSITION,

WT% (A)

ELASTICITY ALLOY

Li Cu Mg Zr Other gr/cm 3 lb/in 3 gpa 10 6 psi

29.9 31.2 30.2 30.6 28.7

2195 1.0 4.0 0.4 0.14 0.4 AG

TABLE 2 LONGITUDINAL TENSILE PROPERTIES OF ALUMINUM-LITHIUM ALLOY PLATE

YIELD STRENGTH ULTIMATE STRENGTH ALLOY

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J MATER SCI

TREATISE MATER SCI TECH.,

PROC 5TH INT AL-LI CONF.,

PROC 3RD INT AL-LI CONF.,

J PHYS

PROC 5TH INT AL-LI CONF

5TH INT AL-LI CONF

PROC CONF GRAIN REFINEMENT IN CASTINGS AND WELDS

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T

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J MATER SCI

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WELDING THEORY AND PRACTICE

PROC 3RD INT

TREATISE MATER SCI TECH

PROD ENG DES

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IN THE AS-WELDED CONDITION

YIELD STRENGTH ULTIMATE STRENGTH ALLOY

AND TEMPER

WELDING PROCESS (A)

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J MATER SCI

J MET

J PHYS

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J MATER SCI

TREATISE MATER SCI TECH.,

PROC 3RD INT AL-LI CONF.,

J PHYS

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PROC CONF GRAIN REFINEMENT IN CASTINGS AND WELDS

WELDING THEORY AND PRACTICE

PROC 3RD INT

TREATISE MATER SCI TECH

PROD ENG DES

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J PHYS

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WELDABILITY OF MATERIALS, PROC MATERIALS WELDABILITY SYMP.,

J MATER SCI.,

INT MET REV.,

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TABLE 1 PROPERTIES OF SELECTED ALUMINUM ALLOYS AND MMCS JOINED USING THE TUNGSTEN ARC WELDING PROCESS

GAS-0.2% YIELD STRENGTH

HEAT-AFFECTED ZONE

WELD

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TABLE 2 PROPERTIES OF ALUMINUM ALLOY 6061 AND ALUMINUM MMC 6061/AL 2 O 3 /20 P JOINED USING THE GAS-METAL ARC WELDING PROCESS

0.2% YIELD STRENGTH

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μ

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μ μ

J APPL PHYS.,

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J MATER RES.,

THE METAL SCIENCE OF JOINING,

PROC LASER MATERIALS PROCESSING SYMPOSIUM,

SCR METALL MATER.,

J MATER SCI.,

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WELD J RES SUPP.,

WELD J.,

J MATER SCI.,

INT MET REV.,

PROC ADVANCES IN PRODUCTION AND FABRICATION OF LIGHT METALS AND MMCS,

ALUMINUM PROPERTIES AND PHYSICAL METALLURGY,

WELDING,

J APPL PHYS.,

J MATER RES.,

THE METAL SCIENCE OF JOINING,

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PROC LASER MATERIALS PROCESSING SYMPOSIUM,

SCR METALL MATER.,

J MATER SCI.,

WELD J RES SUPP.,

WELD J.,

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TABLE 1 NOMINAL COMPOSITIONS OF HIGH-TEMPERATURE ALLOYS

ALLOY

0.02 LA

0.5 MN, 0.4

SI, 0.02

LA, 0.005

B 0.25 CU MAX 0.5 CU MAX

0.06 B 0.012 B, 0.10 ZR 0.15 CU MAX 0.25 CU MAX 0.005B 0.01 B 0.03 B 0.006 B, 0.09 ZR

1.35 MN, 0.70 SI 0.75 MN, 0.50 SI, 3.0

CU 1.10 MN, 0.60 SI 0.8 MN, 0.008 S, 0.5

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SI, 0.4 CU

0.15 N, 0.02

LA, 0.02

ZR

0.005 B, 0.3

V 0.50 TA, 0.02 LA 0.4 SI 1.8 CU

1.5 MN 0.04 LA

6.5 TA, 0.15 ZR, 0.1 Y MP-159 25.0 19.0 36.0 9.0 7.0 3.0 0.6 0.2

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γ γ

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1-20 1-5 10-25 LOWER AGE HARDENING 650-815 1200-1500 10-20

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γ

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TABLE 2 CONSTITUTIONAL LIQUATION IN MULTICOMPONENT SYSTEMS

M 6 C (A)

CR 7 C 3 ; TI(CN) TITANIUM SULFIDE (B) TIC OR TI(CN)

HIGH-STRENGTH MAGNESIUM-BASE ND; Y-CONTAINING PHASE ALLOY

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ADVANCES IN THE TECHNOLOGY OF STAINLESS STEELS AND RELATED ALLOYS,

WELD J., WELD J.,

WELD J.,

TRANS AIME,

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T, T

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R

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R σ X

R,

•

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0.015

0.015 0.02 0.005 NITROGEN 0.005

•

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TABLE 3 INTERFACIAL SULFUR LEVELS IN EXCESS OF SPUTTER-CLEANED SURFACES FOR TREATED ALLOY 718 SPECIMENS RELATIVE TO AS-CAST ALLOY 718 FROM THE SAME HEAT

HEAT-TREATED

0.11 0.03 0.00

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PROC 3RD LNT CONF TRENDS IN WELDING RESEARCH,

PROC WELD RES SYMP., EFFECTS OF MINOR ELEMENTS ON THE WELDABILITY OF HIGH-NICKEL ALLOYS,

EFFECTS OF MINOR ELEMENTS ON THE WELDABILITY OF HIGH-NICKEL ALLOYS,

ET AL., EFFECTS OF MINOR ELEMENTS ON THE WELDABILITY OF NICKEL ALLOYS,

HIGH-SUPERALLOY 718, 625 AND DERIVATIVES,

SUPERALIOY 718, 625 AND DERIVATIVES,

WELD J.,

J PHYSIQUE-COLLOQUE C5,

ADVANCES IN THE TECHNOLOGY OF STAINLESS STEELS AND RELATED

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WELD J., WELD J.,

WELD J.,

WELD J., WELD J.,

PROC 3RD LNT CONF TRENDS IN WELDING RESEARCH,

PROC WELD RES SYMP., EFFECTS OF MINOR ELEMENTS ON THE WELDABILITY OF HIGH-NICKEL ALLOYS,

EFFECTS OF MINOR ELEMENTS ON THE WELDABILITY OF HIGH-NICKEL ALLOYS,

ET AL., EFFECTS OF MINOR ELEMENTS ON THE WELDABILITY OF NICKEL ALLOYS,

HIGH-SUPERALLOY 718, 625 AND DERIVATIVES,

SUPERALIOY 718, 625 AND DERIVATIVES,

WELD J.,

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1.2 AL 3.6 NB

0.02 LA, 0.015 B (MAX)

2.75 SI

0.05 LA, 0.015 B (MAX)

1.0 SI

0.03 CE

0.04 LA

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4.0 NB 7.5 TA, 0.10 ZR

0.6 NB, 0.2 AL, 3.0 TI

1.8 TI, 0.2 AL, 2.9 NB

5.1 NB, 0.9 TI, 0.5 AL

2.5 TI, 0.7 AL, 1.0 NB

2.5 TI, 1.1 AL, 1.0 NB

1.4 AL, 2.4 TI 1.5 AL, 2.5 TI 1.2 AL, 2.3 TI 4.7 AL, 1.3 TI, 0.005 B

5.0 AL, 4.0 TI 1.5 AL, 3.0 TI, 0.006 B

3.5 NB, 3.5 AL, 2.5 TI, 0.05 ZR 5.5 AL, 4.2 TI, 0.06 ZR, 0.015 B 0.5 NB, 1.5 AL, 2.5 TI, 0.06 ZR, 0.008 B

2.9 AL, 2.9 TI, 0.05 ZR, 0.006 B 2.0 AL, 3.0 TI, 0.005 B

6.5 NB, 0.5 AL, 1.0 TI

5.3 AL, 3.5 TI, 0.03 B

2.5 AL, 5.0 TI 2.5 AL, 5.0 TI, 0.03 ZR, 0.033 B 1.5 AL, 3.0 TI, 0.05 ZR, 0.006 B 0.5 AL, 2.2 TI 1.5 TA, 4.6 AL, 3.5 TI, 0.10 ZR 1.5 TA, 4.0 AL, 2.8 TI, 0.1 ZR, 0.015 B

4.0 AL, 3.5 TI, 0.03 B

1.0 AL, 3.0 TI 5.5 AL, 4.7 TI,

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