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Book Chapter

Joining Powder Metallurgy Steel Components

By Peter K. Sokolowski
Series: ASM Handbook
Volume: 7
Publisher: ASM International
Published: 30 September 2015
DOI: 10.31399/asm.hb.v07.a0006108
EISBN: 978-1-62708-175-7
... of various PM materials is presented. The article also describes the effects of porosity on several important properties that affect the welding characteristics. brazing joining porosity powder metallurgy solid-state methods steel components weldability welding Introduction JOINING...
Abstract
This article characterizes the physical differences between powder metallurgy (PM) and wrought or cast materials, as they apply to joining. It discusses acceptable joining procedures and techniques, including welding and brazing and solid-state methods. Information on the weldability of various PM materials is presented. The article also describes the effects of porosity on several important properties that affect the welding characteristics.
View PDF for content titled, Joining Powder Metallurgy <span class="search-highlight">Steel</span> <span class="search-highlight">Components</span>
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Pie chart illustrating typical usage of zinc-coated steel components for bo...

in Precoated Steel Sheet > Properties and Selection: Irons, Steels, and High-Performance Alloys
Published: 01 January 1990
Fig. 2 Pie chart illustrating typical usage of zinc-coated steel components for body, chassis, and power train applications in a 1986 car manufactured by a U.S. automaker. Source: Ref 1 More
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Microstructures of cementation and crucible steel components of early clock...

in Metallography of Archaeological Alloys > Metallography and Microstructures
Published: 01 December 2004
Fig. 8 Microstructures of cementation and crucible steel components of early clocks and watches. Due to sampling restrictions, it was necessary to employ surface metallography. Scanning electron microscope secondary electron images. (a) Cementation steel. Tempered martensite with slag More
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Metal injection molding nickel-free stainless steel components (sintered de...

in Applications for Metal Powder Injection Molding > Powder Metallurgy
Published: 30 September 2015
Fig. 9 Metal injection molding nickel-free stainless steel components (sintered density = 7.6 g/cm 3 , or 0.274 lb/in. 3 ) used to correct a patient's bite. The part comes in three sizes, each with a left- and a right-hand version. Courtesy of MPIF More
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Metal injection molding 17-4 PH stainless steel components (sintered densit...

in Applications for Metal Powder Injection Molding > Powder Metallurgy
Published: 30 September 2015
Fig. 12 Metal injection molding 17-4 PH stainless steel components (sintered density = 7.6 g/cm 3 , or 0.274 lb/in. 3 ) used in a sensor kit that measures the inlet pressure of the air-fuel mixture in each cylinder of a passenger car engine. Courtesy of MPIF More
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Examples of stainless steel components for medical use. Laser powder-bed fu...

in Additive Manufacturing of Stainless Steel Biomedical Devices > Additive Manufacturing in Biomedical Applications
Published: 12 September 2022
Fig. 3 Examples of stainless steel components for medical use. Laser powder-bed fusion (LPBF)-printed additive-manufactured 316 (a) acetabular shell and (b) a cut guide customized for hip and knee replacement surgery. (c) Components postprocessed via vibratory tumbling. Source: Ref 32 . (d More
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A cleavage fracture in a carbon steel component is shown. Scanning electron...

in Overload Failures > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 4 A cleavage fracture in a carbon steel component is shown. Scanning electron micrograph. 593× More
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Stainless steel component that was flexed in service. The transition betwee...

in Overload Failures > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 10 Stainless steel component that was flexed in service. The transition between fatigue and dimple rupture is shown. Scanning electron micrograph. 1187× More
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Brittle fracture in a large steel component. The pronounced radial marks in...

in Failures from Various Mechanisms and Related Environmental Factors > Metals Handbook Desk Edition
Published: 01 December 1998
Fig. 5 Brittle fracture in a large steel component. The pronounced radial marks indicate the fracture direction. More
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Cleavage fracture in a carbon steel component. Scanning electron micrograph...

in Monotonic Overload and Embrittlement > Failure Analysis and Prevention
Published: 15 January 2021
Fig. 4 Cleavage fracture in a carbon steel component. Scanning electron micrograph. Original magnification: 593× More
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Stainless steel component that was flexed in service. The transition betwee...

in Monotonic Overload and Embrittlement > Failure Analysis and Prevention
Published: 15 January 2021
Fig. 10 Stainless steel component that was flexed in service. The transition between fatigue and dimple rupture is shown. Scanning electron micrograph. Original magnification: 1187× More
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AISI 52100 steel component being quenched into a 1% aqueous polyalkylene gl...

in Polymer Quenchants > Quenchants and Quenching Technology
Published: 01 February 2024
Fig. 92 AISI 52100 steel component being quenched into a 1% aqueous polyalkylene glycol solution More
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Fracture of carbonitrided 4340 steel component. (a) Image showing a recovered fragment from a through-hardened AISI/SAE 4340 low-alloy steel hydraulic piston. The piston has internal and external threads. The entire component, including the threads, was carbonitrided. In service, the piston acts in a reciprocating manner. (b) Low-magnification image showing ratchet marks (bottom of image) along the outer periphery of the piston, consistent with crack propagation from the outer diametral surface to the inner diametral surface. (c) Stereomicroscope image showing the ratchet marks observed along the entire outer diameter of the fracture surface at the first loaded thread. (d) Metallographically prepared and etched (2% nital) cross section of the piston threads showing cracks in the compound zone five thread wraps from the fracture location

Fracture of carbonitrided 4340 steel component. (a) Image showing a recover...

in Macroscale Fracture Appearances > Fractography
Published: 01 June 2024
Fig. 8 Fracture of carbonitrided 4340 steel component. (a) Image showing a recovered fragment from a through-hardened AISI/SAE 4340 low-alloy steel hydraulic piston. The piston has internal and external threads. The entire component, including the threads, was carbonitrided. In service More
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Areas from two different fracture surfaces on a low-carbon steel component (0.52% C, 0.90% Mn, 0.38% Cr, 0.32% Si) that was being considered for railroad wheels. The fractures are clearly ductile, with varying sizes of dimples and distinct particles in the bottom of the larger dimples. (a) In the upper-right corner, the particle is clearly fractured. Source: Ref 18

Areas from two different fracture surfaces on a low-carbon steel component ...

in The Role of Fractography in Metallurgical Failure Analysis > Fractography
Published: 01 June 2024
Fig. 24 Areas from two different fracture surfaces on a low-carbon steel component (0.52% C, 0.90% Mn, 0.38% Cr, 0.32% Si) that was being considered for railroad wheels. The fractures are clearly ductile, with varying sizes of dimples and distinct particles in the bottom of the larger dimples More
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Typical galvanized and aluminized steel rear suspension components used in ...

in Precoated Steel Sheet > Properties and Selection: Irons, Steels, and High-Performance Alloys
Published: 01 January 1990
Fig. 7 Typical galvanized and aluminized steel rear suspension components used in American front-wheel drive automobiles. Source: Ref 1 More
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Erosion-corrosion of ACI CN-7M stainless steel pump components that pumped ...

in Corrosion in the Mining and Mineral Industry > Corrosion: Environments and Industries
Published: 01 January 2006
Fig. 7 Erosion-corrosion of ACI CN-7M stainless steel pump components that pumped hot H 2 SO 4 with some solids present. Note the grooves, gullies, waves, and valleys common to erosion-corrosion damage. Courtesy of A.R. Wilfley &amp; Sons, Inc., Pump Division More
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Components of a steel wire rope. Source: Ref 3

in Failures of Lifting Equipment[1] > Failure Analysis and Prevention
Published: 01 January 2002
Fig. 2 Components of a steel wire rope. Source: Ref 3 More
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Selection of the variety of steel and cast iron components that can be indu...

in Simulation of Induction Heat Treating > Metals Process Simulation
Published: 01 November 2010
Fig. 2 Selection of the variety of steel and cast iron components that can be induction hardened. Courtesy of Inductoheat, Inc. More
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Components of a steel wire rope. Source: Ref 1 . Created by P. Toone. Cour...

in Failures of Cranes and Lifting Equipment > Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
Fig. 2 Components of a steel wire rope. Source: Ref 1 . Created by P. Toone. Courtesy of OSHA DTSEM/SLTC More
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The separation of strain components for a creep test on Cr-Mo-V steel at 53...

in Design for High-Temperature Applications > Materials Selection and Design
Published: 01 January 1997
Fig. 4 The separation of strain components for a creep test on Cr-Mo-V steel at 538 °C (1000 °F) and 35 MPa (5 ksi). Source: Ref 27 More