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surface condition

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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> on etched metal <span class="search-highlight">surface</span>

Effect of surface condition on etched metal surface

in Surface Engineering of Titanium and Titanium Alloys > Surface Engineering
Published: 01 January 1994
Fig. 3 Effect of surface condition on etched metal surface More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> on fatigue limit. (a) Effect of <span class="search-highlight">surface</span> conditi...

Effect of surface condition on fatigue limit. (a) Effect of surface conditi...

in Closed-Die Forgings > Properties and Selection: Irons, Steels, and High-Performance Alloys
Published: 01 January 1990
Fig. 5 Effect of surface condition on fatigue limit. (a) Effect of surface condition on fatigue behavior of steels that were hardened and tempered to 269 to 285 HB. (b) Effect of tensile strength level and surface condition of steel on fatigue limit; strengths are given for 10 6 cycle fatigue More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> on endurance limit of ductile iron. Tests made ...

Effect of surface condition on endurance limit of ductile iron. Tests made ...

in Ductile Iron > Properties and Selection: Irons, Steels, and High-Performance Alloys
Published: 01 January 1990
Fig. 19 Effect of surface condition on endurance limit of ductile iron. Tests made on 10.6 mm (0.417 in.) diam specimens. Fully reversed stress ( R = −1) More
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<span class="search-highlight">Surface</span> <span class="search-highlight">condition</span> change and buildup on lower draw die and beads with drawi...

Surface condition change and buildup on lower draw die and beads with drawi...

in Prediction and Direct Measurements of Die Wear in Stamping Processes[1] > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 6 Surface condition change and buildup on lower draw die and beads with drawing More
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<span class="search-highlight">Surface</span> <span class="search-highlight">condition</span> change and buildup on upper draw die and bead with drawin...

Surface condition change and buildup on upper draw die and bead with drawin...

in Prediction and Direct Measurements of Die Wear in Stamping Processes[1] > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 7 Surface condition change and buildup on upper draw die and bead with drawing More
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Scanning electron micrographs showing test <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> of 25% Cr high...

Scanning electron micrographs showing test surface condition of 25% Cr high...

in Specification, Selection, and Applications of High-Alloy Iron Castings > Cast Iron Science and Technology
Published: 31 August 2017
Fig. 27 Scanning electron micrographs showing test surface condition of 25% Cr high-chromium white iron that received corrosion-erosion attack in a Coriolis erosion test with 10 μm (D50) silica sand slurry at 1.5 pH, 60,000 ppm Cl − at 47.5 °C More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> on the tensile properties of compact graphite (...

Effect of surface condition on the tensile properties of compact graphite (...

in Surface Quality and Mold-Metal Interface Interaction > Cast Iron Science and Technology
Published: 31 August 2017
Fig. 7 Effect of surface condition on the tensile properties of compact graphite (CG) iron. AC, as-cast; M, machined; SB1, shot blasted 1 min; SB2, shot blasted 5 min. A skin thickness value of 0 means machined state. (a) Tensile strength. (b) Elongation. (c) Effect of skin thickness. Source More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> and nodularity on fatigue properties of CG iron...

Effect of surface condition and nodularity on fatigue properties of CG iron...

in Surface Quality and Mold-Metal Interface Interaction > Cast Iron Science and Technology
Published: 31 August 2017
Fig. 8 Effect of surface condition and nodularity on fatigue properties of CG iron plates (8 mm, or 0.3 in.) cast in sodium silicate sand. AC, as-cast; M, machined. (a) S - N curves for 15% nodularity. (b) S - N curves for 40% nodularity. (c) Effect of nodularity on the skin factor. Source More
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Plate <span class="search-highlight">surface</span> <span class="search-highlight">condition</span> around the fracture-initiation locations. No eviden...

Plate surface condition around the fracture-initiation locations. No eviden...

in Failure Analysis of Railroad Components > Analysis and Prevention of Component and Equipment Failures
Published: 30 August 2021
Fig. 55 Plate surface condition around the fracture-initiation locations. No evidence of a plate strike was present More
Book Chapter

Effect of Surface Conditions and Processing on Fatigue Performance

By Brian Leis
Series: ASM Handbook
Volume: 19
Publisher: ASM International
Published: 01 January 1996
DOI: 10.31399/asm.hb.v19.a0002371
EISBN: 978-1-62708-193-1
... tests. corrosion fatigue properties fatigue resistance surface treatment wear SURFACE CONDITION and manufacturing-related surface alterations strongly influence fatigue resistance. Data that characterize their effects provide the means to extend life prediction methods (which are based...
Abstract
This article presents an approach to characterize the effects of surface treatments to enhance fatigue properties, with particular concern for wear, corrosion, and thermal effects. It discusses the considerations in selecting fabrication or subsequent surface processing procedures to improve fatigue resistance in terms of their respective effects on fatigue performance. The article details the experimental data sets representing specific materials, typical test geometries, and a range of different processing methods used to enhance resistance as compared to results for laboratory tests.
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Change in <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> of sheet metal with drawing. (a) From top to b...

Change in surface conditions of sheet metal with drawing. (a) From top to b...

in Prediction and Direct Measurements of Die Wear in Stamping Processes[1] > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 5 Change in surface conditions of sheet metal with drawing. (a) From top to bottom: 0 (initial condition), 1000, 5000, 15,000, 25,000, 35,000, 40,000, and ∼49,000 drawings. (b) Close-up views of sheet metal surface conditions at the beginning and end of wear tests More
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Evolution of <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> on a draw die for a hot dip galvanized dual...

Evolution of surface conditions on a draw die for a hot dip galvanized dual...

in Indirect Nondestructive Measurements of Die Wear in Stamping Productions[1] > Metalworking: Sheet Forming
Published: 01 January 2006
Fig. 3 Evolution of surface conditions on a draw die for a hot dip galvanized dual-phase 600 part of 1.4 mm (0.06 in.). (a) After ∼35,000 drawings. Chromium plated. (b) After ∼106,200 drawings. Thermal-diffusion (TD) VC treated. (c) and (d) Slightly roughened radii after ∼417,700 drawings. TD More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> on the midplane cooling of a 13 mm (0.5 in.) t...

Effect of surface conditions on the midplane cooling of a 13 mm (0.5 in.) t...

in Quenching of Aluminum Alloys > Heat Treating of Nonferrous Alloys
Published: 01 June 2016
Fig. 12 Effect of surface conditions on the midplane cooling of a 13 mm (0.5 in.) thick plate of 7075 from quenching in (a) 20 °C (70 °F) water and (b) boiling water More
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Schematic representation of workpiece <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> in the prebonded s...

Schematic representation of workpiece surface conditions in the prebonded s...

in Mechanisms of Bonding for Solid-State Welding Processes > Welding Fundamentals and Processes
Published: 31 October 2011
Fig. 1 Schematic representation of workpiece surface conditions in the prebonded state More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> on the fatigue properties of steel (302 to 321...

Effect of surface conditions on the fatigue properties of steel (302 to 321...

in Evaluating Corrosion Fatigue > Corrosion: Fundamentals, Testing, and Protection
Published: 01 January 2003
Fig. 7 Effect of surface conditions on the fatigue properties of steel (302 to 321 HB) More
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Effect of <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> on the midplane cooling of a 13 mm (0.5 in.) t...

Effect of surface conditions on the midplane cooling of a 13 mm (0.5 in.) t...

in Quenching of Aluminum Alloys[1] > Aluminum Science and Technology
Published: 30 November 2018
Fig. 5 Effect of surface conditions on the midplane cooling of a 13 mm (0.5 in.) thick plate of 7075 from quenching in (a) 20 °C (70 °F) water and (b) boiling water More
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Microstructure and wear <span class="search-highlight">surface</span> <span class="search-highlight">conditions</span> of a 25% Cr high-chromium white ...

Microstructure and wear surface conditions of a 25% Cr high-chromium white ...

in Specification, Selection, and Applications of High-Alloy Iron Castings > Cast Iron Science and Technology
Published: 31 August 2017
Fig. 26 Microstructure and wear surface conditions of a 25% Cr high-chromium white iron (ASTM class II type A) after Coriolis sliding erosion test. (a) Original microstructure (optical microscopy). (b) Wear surface by 1400 μm (D50) sand particles (scanning electron microscopy). (c) Wear More
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Painted wood <span class="search-highlight">surface</span> in poor <span class="search-highlight">condition</span>. Courtesy of KTA-Tator, Inc.

Painted wood surface in poor condition. Courtesy of KTA-Tator, Inc.

in Coating Various Substrates > Protective Organic Coatings
Published: 30 September 2015
Fig. 15 Painted wood surface in poor condition. Courtesy of KTA-Tator, Inc. More
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Fracture <span class="search-highlight">surface</span> of a specimen of the same material and <span class="search-highlight">condition</span> as in Fi...

Fracture surface of a specimen of the same material and condition as in Fi...

in Titanium Alloys: Atlas of Fractographs > Fractography
Published: 01 January 1987
Fig. 1158 Fracture surface of a specimen of the same material and condition as in Fig. 1156 (mill-annealed Ti-6Al-4V sheet), but fracture-toughness tested in hydrogen at 1 atm. (Structure is continuous α phase with dispersed β phase.) The fatigue-precrack region (dark area at left), produced More
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<span class="search-highlight">Surface</span> of 1100-O aluminum (annealed <span class="search-highlight">condition</span>) eroded by 700 μm diameter s...

Surface of 1100-O aluminum (annealed condition) eroded by 700 μm diameter s...

in Erosive Wear Failures > Failure Analysis and Prevention
Published: 15 January 2021
Fig. 4 Surface of 1100-O aluminum (annealed condition) eroded by 700 μm diameter spherical steel shot at 60° impact angle. Source: Ref 8 More